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42130011 | 10.1007/jhep09(2014)034 | We formulate the theory of a 2-form gauge field on a Euclidean spacetime lattice. In this approach, the fundamental degrees of freedom live on the faces of the lattice, and the action can be constructed from the sum over Wilson surfaces associated with each fundamental cube of the lattice. If we take the gauge group to be U(1), the theory reduces to the well-known abelian gerbe theory in the continuum limit. We also propose a very simple and natural non-abelian generalization with gauge group U(N)×U(N), which gives rise to U(N) Yang-Mills theory upon dimensional reduction. Formulating the theory on a lattice has several other advantages. In particular, it is possible to compute many observables, such as the expectation value of Wilson surfaces, analytically at strong coupling and numerically for any value of the coupling | Lattice gerbe theory. | lattice gerbe theory. | formulate euclidean spacetime lattice. freedom live faces wilson cube lattice. reduces abelian gerbe continuum limit. propose abelian generalization mills reduction. formulating advantages. observables expectation wilson analytically numerically | non_dup | [] |
55632239 | 10.1007/jhep09(2014)037 | This paper presents a search for new particles in events with one lepton (electron or muon) and missing transverse momentum using 20.3 fb−1 of proton-proton collision data at s√ = 8 TeV recorded by the ATLAS experiment at the Large Hadron Collider. No significant excess beyond Standard Model expectations is observed. A W ′ with Sequential Standard Model couplings is excluded at the 95% confidence level for masses up to 3.24 TeV. Excited chiral bosons (W *) with equivalent coupling strengths are excluded for masses up to 3.21 TeV. In the framework of an effective field theory limits are also set on the dark matter-nucleon scattering cross-section as well as the mass scale M * of the unknown mediating interaction for dark matter pair production in association with a leptonically decaying W.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWF and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF, DNSRC and Lundbeck Foundation, Denmark; EPLANET, ERC and NSRF, European Union; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, DFG, HGF, MPG and AvH Foundation, Germany; GSRT and NSRF, Greece; ISF, MINERVA, GIF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; BRF and RCN, Norway; MNiSW and NCN, Poland; GRICES and FCT, Portugal; MNE/IFA, Romania; MES of Russia and ROSATOM, Russian Federation; JINR; MSTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SER, SNSF and Cantons of Bern and Geneva, Switzerland; NSC, Taiwan; TAEK, Turkey; STFC, the Royal Society and Leverhulme Trust, United Kingdom; DOE and NSF, United States of America | Search for new particles in events with one lepton and missing transverse momentum in pp collisions at s√ = 8 TeV with the ATLAS detector | search for new particles in events with one lepton and missing transverse momentum in pp collisions at s√ = 8 tev with the atlas detector | presents lepton muon missing proton proton collision atlas hadron collider. excess expectations observed. sequential couplings excluded confidence tev. excited chiral bosons strengths excluded tev. nucleon unknown mediating leptonically decaying w.we acknowledge anpcyt argentina yerphi armenia australia bmwf austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc lundbeck foundation denmark eplanet nsrf union cnrs irfu gnsf georgia bmbf foundation gsrt nsrf greece minerva benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland grices portugal romania russia rosatom russian federation jinr mstd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden snsf cantons bern geneva switzerland taiwan taek turkey stfc royal leverhulme trust kingdom america | non_dup | [] |
55639267 | 10.1007/jhep09(2015)049 | This paper presents measurements from the ATLAS experiment of the forward-backward asymmetry in the reaction pp→Z/γ∗→l+l−, with l being electrons or muons, and the extraction of the effective weak mixing angle. The results are based on the full set of data collected in 2011 in pp collisions at the LHC at s√ = 7 TeV, corresponding to an integrated luminosity of 4.8 fb−1. The measured asymmetry values are found to be in agreement with the corresponding Standard Model predictions. The combination of the muon and electron channels yields a value of the effective weak mixing angle of 0.2308±0.0005(stat.)±0.0006(syst.)±0.0009(PDF), where the first uncertainty corresponds to data statistics, the second to systematic effects and the third to knowledge of the parton density functions. This result agrees with the current world average from the Particle Data Group fit.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF, DNSRC and Lundbeck Foundation, Denmark; EPLANET, ERC and NSRF, European Union; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, DFG, HGF, MPG and AvH Foundation, Germany; GSRT and NSRF, Greece; RGC, Hong Kong SAR, China; ISF, MINERVA, GIF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; BRF and RCN, Norway; MNiSW and NCN, Poland; GRICES and FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MSTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SER, SNSF and Cantons of Bern and Geneva, Switzerland; NSC, Taiwan; TAEK, Turkey; STFC, the Royal Society and Leverhulme Trust, United Kingdom; DOE and NSF, United States of America | Measurement of the forward-backward asymmetry of electron and muon pair-production in pp collisions at s√ = 7 TeV with the ATLAS detector | measurement of the forward-backward asymmetry of electron and muon pair-production in pp collisions at s√ = 7 tev with the atlas detector | presents atlas backward asymmetry pp→z γ∗→l muons extraction angle. collisions luminosity asymmetry predictions. muon stat. syst. parton functions. agrees fit.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc lundbeck foundation denmark eplanet nsrf union cnrs irfu gnsf georgia bmbf foundation gsrt nsrf greece hong kong minerva benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland grices portugal romania russia russian federation jinr mstd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden snsf cantons bern geneva switzerland taiwan taek turkey stfc royal leverhulme trust kingdom america | non_dup | [] |
55639265 | 10.1007/jhep09(2015)050 | Charged-particle spectra obtained in 0.15nb−1 of Pb+Pb interactions at sNN−−−√=2.76TeV and 4.2pb−1 of pp interactions at s√=2.76TeV with the ATLAS detector at the LHC are presented in a wide transverse momentum (0.5<pT<150GeV) and pseudorapidity (|η|<2) range. For Pb+Pb collisions, the spectra are presented as a function of collision centrality, which is determined by the response of the forward calorimeter located on both sides of the interaction point. The nuclear modification factors RAA and RCP are presented in detail as function of centrality, pT and η. They show a distinct pT-dependence with a pronounced minimum at about 7GeV. Above 60GeV, RAA is consistent with a plateau at a centrality-dependent value, within the uncertainties. The value is 0.55±0.01(stat.)±0.04(syst.) in the most central collisions. The RAA distribution is consistent with flat |η| dependence over the whole transverse momentum range in all centrality classes.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF, DNSRC and Lundbeck Foundation, Denmark; EPLANET, ERC and NSRF, European Union; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, DFG, HGF, MPG and AvH Foundation, Germany; GSRT and NSRF, Greece; RGC, Hong Kong SAR, China; ISF, MINERVA, GIF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; BRF and RCN, Norway; MNiSW and NCN, Poland; GRICES and FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MSTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SER, SNSF and Cantons of Bern and Geneva, Switzerland; NSC, Taiwan; TAEK, Turkey; STFC, the Royal Society and Lever-hulme Trust, United Kingdom; DOE and NSF, United States of America | Measurement of charged-particle spectra in Pb+Pb collisions at √sNN = 2.76TeV with the ATLAS detector at the LHC | measurement of charged-particle spectra in pb+pb collisions at √snn = 2.76tev with the atlas detector at the lhc | snn−−−√ atlas pseudorapidity range. collisions collision centrality calorimeter sides point. modification centrality pronounced gev. plateau centrality uncertainties. stat. syst. collisions. centrality classes.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc lundbeck foundation denmark eplanet nsrf union cnrs irfu gnsf georgia bmbf foundation gsrt nsrf greece hong kong minerva benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland grices portugal romania russia russian federation jinr mstd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden snsf cantons bern geneva switzerland taiwan taek turkey stfc royal lever hulme trust kingdom america | non_dup | [] |
55639268 | 10.1007/jhep09(2015)108 | A search for heavy leptons decaying to a Z boson and an electron or a muon is presented. The search is based on pp collision data taken at s√=8 TeV by the ATLAS experiment at the CERN Large Hadron Collider, corresponding to an integrated luminosity of 20.3 fb−1. Three high-transverse-momentum electrons or muons are selected, with two of them required to be consistent with originating from a Z boson decay. No significant excess above Standard Model background predictions is observed, and 95% confidence level limits on the production cross section of high-mass trilepton resonances are derived. The results are interpreted in the context of vector-like lepton and type-III seesaw models. For the vector-like lepton model, most heavy lepton mass values in the range 114-176 GeV are excluded. For the type-III seesaw model, most mass values in the range 100-468 GeV are excluded.We thank CERN for the very successful operation of the LHC, as well as the support staff from our institutions without whom ATLAS could not be operated efficiently.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF, DNSRC and Lundbeck Foundation, Denmark; EPLANET, ERC and NSRF, European Union; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, DFG, HGF, MPG and AvH Foundation, Germany; GSRT and NSRF, Greece; RGC, Hong Kong SAR, China; ISF, MINERVA, GIF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; BRF and RCN, Norway; MNiSW and NCN, Poland; GRICES and FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MSTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SER, SNSF and Cantons of Bern and Geneva, Switzerland; NSC, Taiwan; TAEK, Turkey; STFC, the Royal Society and Leverhulme Trust, United Kingdom; DOE and NSF, United States of America | Search for heavy lepton resonances decaying to a Z boson and a lepton in pp collisions at s√=8 TeV with the ATLAS detector | search for heavy lepton resonances decaying to a z boson and a lepton in pp collisions at s√=8 tev with the atlas detector | leptons decaying boson muon presented. collision atlas cern hadron collider luminosity muons originating boson decay. excess confidence trilepton resonances derived. interpreted lepton seesaw models. lepton lepton excluded. seesaw excluded.we cern successful staff institutions atlas operated efficiently.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc lundbeck foundation denmark eplanet nsrf union cnrs irfu gnsf georgia bmbf foundation gsrt nsrf greece hong kong minerva benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland grices portugal romania russia russian federation jinr mstd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden snsf cantons bern geneva switzerland taiwan taek turkey stfc royal leverhulme trust kingdom america | non_dup | [] |
33381566 | 10.1007/jhep09(2015)137 | Citation: Khachatryan, V., Sirunyan, A. M., Tumasyan, A., Adam, W., Asilar, E., Bergauer, T., . . . Collaboration, C. M. S. (2015). Measurement of the underlying event activity using charged-particle jets in proton-proton collisions at root s=2.76 TeV. Journal of High Energy Physics(9), 33. doi:10.1007/jhep09(2015)137A measurement of the underlying event (UE) activity in proton-proton collisions is performed using events with charged-particle jets produced in the central pseudorapidity region (vertical bar eta(jet) | < 2) and with transverse momentum 1 <= p(T)(jet) < 100 GeV. The analysis uses a data sample collected at a centre-of-mass energy of 2.76TeV with the CMS experiment at the LHC. The UE activity is measured as a function of p(T)(jet) T in terms of the average multiplicity and scalar sum of transverse momenta (p(T)) of charged particles, with vertical bar eta vertical bar < 2 and p(T) > 0.5 GeV, in the azimuthal region transverse to the highest p(T) jet direction. By further dividing the transverse region into two regions of smaller and larger activity, various components of the UE activity are separated. The measurements are compared to previous results at 0.9 and 7TeV, and to predictions of several Monte Carlo event generators, providing constraints on the modelling of the UE dynamics.Additional Authors: Hormann, N.;Hrubec, J.;Jeitler, M.;Knunz, V.;Konig, A.;Krammer, M.;Kratschmer, I.;Liko, D.;Matsushita, T.;Mikulec, I.;Rabady, D.;Rahbaran, B.;Rohringer, H.;Schieck, J.;Schofbeck, R.;Strauss, J.;Treberer-Treberspurg, W.;Waltenberger, W.;Wulz, C. E.;Mossolov, V.;Shumeiko, N.;Gonzalez, J. S.;Alderweireldt, S.;Cornelis, T.;De Wolf, E. A.;Janssen, X.;Knutsson, A.;Lauwers, J.;Luyckx, S.;Ochesanu, S.;Rougny, R.;Van de Klundert, M.;Van Haevermaet, H.;Van Mechelen, P.;Van Remortel, N.;Van Spilbeeck, A.;Abu Zeid, S.;Blekman, F.;D'Hondt, J.;Daci, N.;De Bruyn, I.;Deroover, K.;Heracleous, N.;Keaveney, J.;Lowette, S.;Moreels, L.;Olbrechts, A.;Python, Q.;Strom, D.;Tavernier, S.;Van Doninck, W.;Van Mulders, P.;Van Onsem, G. P.;Van Parijs, I.;Barria, P.;Caillol, C.;Clerbaux, B.;De Lentdecker, G.;Delannoy, H.;Dobur, D.;Fasanella, G.;Favart, L.;Gay, A. P. R.;Grebenyuk, A.;Lenzi, T.;Leonard, A.;Maerschalk, T.;Mohammadi, A.;Pernie, L.;Randle-conde, A.;Reis, T.;Seva, T.;Vander Velde, C.;Vanlaer, P.;Wang, J.;Yonamine, R.;Zenoni, F.;Zhang, F.;Beernaert, K.;Benucci, L.;Cimmino, A.;Crucy, S.;Fagot, A.;Garcia, G.;Gul, M.;McCartin, J.;Rios, A. A. O.;Poyraz, D.;Ryckbosch, D.;Salva, S.;Sigamani, M.;Strobbe, N.;Tytgat, M.;Van Driessche, W.;Yazgan, E.;Zaganidis, N.;Basegmez, S.;Beluffi, C.;Bondu, O.;Bruno, G.;Castello, R.;Caudron, A.;Ceard, L.;Da Silveira, G. G.;Delaere, C.;Favart, D.;Forthomme, L.;Giammanco, A.;Hollar, J.;Jafari, A.;Jez, P.;Komm, M.;Lemaitre, V.;Mertens, A.;Nuttens, C.;Perrini, L.;Pin, A.;Piotrzkowski, K.;Popov, A.;Quertenmont, L.;Selvaggi, M.;Marono, M. V.;Beliy, N.;Caebergs, T.;Hammad, G. H.;Alda, W. L.;Alves, G. A.;Brito, L.;Martins, M. C.;Martins, T. D.;Hensel, C.;Herrera, C. M.;Moraes, A.;Pol, M. E.;Teles, P. R.;Das Chagas, E. B. B.;Carvalho, W.;Chinellato, J.;Custodio, A.;Da Costa, E. M.;Damiao, D. D.;Martins, C. D.;De Souza, S. F.;Guativa, L. M. H.;Malbouisson, H.;Figueiredo, D. M.;Mundim, L.;Nogima, H.;Da Silva, W. L. P.;Santoro, A.;Sznajder, A.;Manganote, E. J. T.;Pereira, A. V.;Ahuja, S.;Bernardes, C. A.;Santos, A. D.;Dogra, S.;Tomei, Trfp;Gregores, E. M.;Mercadante, P. G.;Moon, C. S.;Novaes, S. F.;Padula, S. S.;Abad, D. R.;Vargas, J. C. R.;Aleksandrov, A.;Genchev, V.;Hadjiiska, R.;Iaydjiev, P.;Marinov, A.;Piperov, S.;Rodozov, M.;Stoykova, S.;Sultanov, G.;Vutova, M.;Dimitrov, A.;Glushkov, I.;Litov, L.;Pavlov, B.;Petkov, P.;Ahmad, M.;Bian, J. G.;Chen, G. M.;Chen, H. S.;Chen, M.;Cheng, T.;Du, R.;Jiang, C. H.;Plestina, R.;Romeo, F.;Shaheen, S. M.;Tao, J.;Wang, C.;Wang, Z.;Zhang, H.;Asawatangtrakuldee, C.;Ban, Y.;Li, Q.;Liu, S.;Mao, Y.;Qian, S. J.;Wang, D.;Xu, Z.;Zou, W.;Avila, C.;Cabrera, A.;Sierra, L. F. C.;Florez, C.;Gomez, J. P.;Moreno, B. G.;Sanabria, J. C.;Godinovic, N.;Lelas, D.;Pone, D.;Puljak, I.;Antunovic, Z.;Kovac, M.;Brigljevic, V.;Kadija, K.;Luetic, J.;Sudic, L.;Attikis, A.;Mavromanolakis, G.;Mousa, J.;Nicolaou, C.;Ptochos, F.;Razis, P. A.;Rykaczewski, H.;Bodlak, M.;Finger, M.;Finger, M.;Aly, R.;Aly, S.;Assran, Y.;Elgammal, S.;Kamel, A. E.;Lotfy, A.;Mahmoud, M. A.;Radi, A.;Sayed, A.;Calpas, B.;Kadastik, M.;Murumaa, M.;Raidal, M.;Tiko, A.;Veelken, C.;Eerola, P.;Pekkanen, J.;Voutilainen, M.;Harkonen, J.;Karimaki, V.;Kinnunen, R.;Lampen, T.;Lassila-Perini, K.;Lehti, S.;Linden, T.;Luukka, P.;Maenpaa, T.;Peltola, T.;Tuominen, E.;Tuominiemi, J.;Tuovinen, E.;Wendland, L.;Talvitie, J.;Tuuva, T.;Besancon, M.;Couderc, F.;Dejardin, M.;Denegri, D.;Fabbro, B.;Faure, J. L.;Favaro, C.;Ferri, F.;Ganjour, S.;Givernaud, A.;Gras, P.;de Monchenault, G. H.;Jarry, P.;Locci, E.;Machet, M.;Malcles, J.;Rander, J.;Rosowsky, A.;Titov, M.;Zghiche, A.;Baffioni, S.;Beaudette, F.;Busson, P.;Cadamuro, L.;Chapon, E.;Charlot, C.;Dahms, T.;Davignon, O.;Filipovic, N.;Florent, A.;de Cassagnac, R. G.;Lisniak, S.;Mastrolorenzo, L.;Mine, P.;Naranjo, I. N.;Nguyen, M.;Ochando, C.;Ortona, G.;Paganini, P.;Regnard, S.;Salerno, R.;Sauvan, J. B.;Sirois, Y.;Strebler, T.;Yilmaz, Y.;Zabi, A.;Agram, J. L.;Andrea, J.;Aubin, A.;Bloch, D.;Brom, J. M.;Buttignol, M.;Chabert, E. C.;Chanon, N.;Collard, C.;Conte, E.;Coubez, X.;Fontaine, J. C.;Gele, D.;Goerlach, U.;Goetzmann, C.;Le Bihan, A. C.;Merlin, J. A.;Skovpen, K.;Van Hove, P.;Gadrat, S.;Beauceron, S.;Bernet, C.;Boudoul, G.;Bouvier, E.;Brochet, S.;Montoya, C. A. C.;Chasserat, J.;Chierici, R.;Contardo, D.;Courbon, B.;Depasse, P.;El Mamouni, H.;Fan, J.;Fay, J.;Gascon, S.;Gouzevitch, M.;Ille, B.;Laktineh, I. B.;Lethuillier, M.;Mirabito, L.;Pequegnot, A. L.;Perries, S.;Alvarez, J. D. R.;Sabes, D.;Sgandurra, L.;Sordini, V.;Vander Donckt, M.;Verdier, P.;Viret, S.;Xiao, H.;Toriashvili, T.;Bagaturia, I.;Autermann, C.;Beranek, S.;Edelhoff, M.;Feld, L.;Heister, A.;Kiesel, M. K.;Klein, K.;Lipinski, M.;Ostapchuk, A.;Preuten, M.;Raupach, F.;Sammet, J.;Schael, S.;Schulte, J. F.;Verlage, T.;Weber, H.;Wittmer, B.;Zhukov, V.;Ata, M.;Brodski, M.;Dietz-Laursonn, E.;Duchardt, D.;Endres, M.;Erdmann, M.;Erdweg, S.;Esch, T.;Fischer, R.;Guth, A.;Hebbeker, T.;Heidemann, C.;Hoepfner, K.;Klingebiel, D.;Knutzen, S.;Kreuzer, P.;Merschmeyer, M.;Meyer, A.;Millet, P.;Olschewski, M.;Padeken, K.;Papacz, P.;Pook, T.;Radziej, M.;Reithler, H.;Rieger, M.;Scheuch, F.;Sonnenschein, L.;Teyssier, D.;Thuer, S.;Cherepanov, V.;Erdogan, Y.;Flugge, G.;Geenen, H.;Geisler, M.;Hoehle, F.;Kargoll, B.;Kress, T.;Kuessel, Y.;Kunsken, A.;Lingemann, J.;Nehrkorn, A.;Nowack, A.;Nugent, I. M.;Pistone, C.;Pooth, O.;Stahl, A.;Martin, M. A.;Asin, I.;Bartosik, N.;Behnke, O.;Behrens, U.;Bell, A. J.;Borras, K.;Burgmeier, A.;Cakir, A.;Calligaris, L.;Campbell, A.;Choudhury, S.;Costanza, F.;Pardos, C. D.;Dolinska, G.;Dooling, S.;Dorland, T.;Eckerlin, G.;Eckstein, D.;Eichhorn, T.;Flucke, G.;Gallo, E.;Garcia, J. G.;Geiser, A.;Gizhko, A.;Gunnellini, P.;Hauk, J.;Hempel, M.;Jung, H.;Kalogeropoulos, A.;Karacheban, O.;Kasemann, M.;Katsas, P.;Kieseler, J.;Kleinwort, C.;Korol, I.;Lange, W.;Leonard, J.;Lipka, K.;Lobanov, A.;Lohmann, W.;Mankel, R.;Marfin, I.;Melzer-Pellmann, I. A.;Meyer, A. B.;Mittag, G.;Mnich, J.;Mussgiller, A.;Naumann-Emme, S.;Nayak, A.;Ntomari, E.;Perrey, H.;Pitzl, D.;Placakyte, R.;Raspereza, A.;Cipriano, P. M. R.;Roland, B.;Sahin, M. O.;Salfeld-Nebgen, J.;Saxena, P.;Schoerner-Sadenius, T.;Schroder, M.;Seitz, C.;Spannagel, S.;Trippkewitz, K. D.;Wissing, C.;Blobel, V.;Vignali, M. C.;Draeger, A. R.;Erfle, J.;Garutti, E.;Goebel, K.;Gonzalez, D.;Gorner, M.;Haller, J.;Hoffmann, M.;Hoing, R. S.;Junkes, A.;Klanner, R.;Kogler, R.;Lapsien, T.;Lenz, T.;Marchesini, I.;Marconi, D.;Nowatschin, D.;Ott, J.;Pantaleo, F.;Peiffer, T.;Perieanu, A.;Pietsch, N.;Poehlsen, J.;Rathjens, D.;Sander, C.;Schettler, H.;Schleper, P.;Schlieckau, E.;Schmidt, A.;Schwandt, J.;Seidel, M.;Sola, V.;Stadie, H.;Steinbruck, G.;Tholen, H.;Troendle, D.;Usai, E.;Vanelderen, L.;Vanhoefer, A.;Akbiyik, M.;Barth, C.;Baus, C.;Berger, J.;Boser, C.;Butz, E.;Chwalek, T.;Colombo, F.;De Boer, W.;Descroix, A.;Dierlamm, A.;Feindt, M.;Frensch, F.;Giffels, M.;Gilbert, A.;Hartmann, F.;Husemann, U.;Kassel, F.;Katkov, I.;Kornmayer, A.;Pardo, P. L.;Mozer, M. U.;Muller, T.;Muller, T.;Plagge, M.;Quast, G.;Rabbertz, K.;Rocker, S.;Roscher, F.;Simonis, H. J.;Stober, F. M.;Ulrich, R.;Wagner-Kuhr, J.;Wayand, S.;Weiler, T.;Wohrmann, C.;Wolf, R.;Anagnostou, G.;Daskalakis, G.;Geralis, T.;Giakoumopoulou, V. A.;Kyriakis, A.;Loukas, D.;Markou, A.;Psallidas, A.;Topsis-Giotis, I.;Agapitos, A.;Kesisoglou, S.;Panagiotou, A.;Saoulidou, N.;Tziaferi, E.;Evangelou, I.;Flouris, G.;Foudas, C.;Kokkas, P.;Loukas, N.;Manthos, N.;Papadopoulos, I.;Paradas, E.;Strologas, J.;Bencze, G.;Hajdu, C.;Hazi, A.;Hidas, P.;Horvath, D.;Sikler, F.;Veszpremi, V.;Vesztergombi, G.;Zsigmond, A. J.;Beni, N.;Czellar, S.;Karancsi, J.;Molnar, J.;Szillasi, Z.;Bartok, M.;Makovec, A.;Raics, P.;Trocsanyi, Z. L.;Ujvari, B.;Mal, P.;Mandal, K.;Sahoo, N.;Swain, S. K.;Bansal, S.;Beri, S. B.;Bhatnagar, V.;Chawla, R.;Gupta, R.;Bhawandeep, U.;Kalsi, A. K.;Kaur, A.;Kaur, M.;Kumar, R.;Mehta, A.;Mittal, M.;Nishu, N.;Singh, J. B.;Walia, G.;Kumar, A.;Kumar, A.;Bhardwaj, A.;Choudhary, B. C.;Garg, R. B.;Kumar, A.;Malhotra, S.;Naimuddin, M.;Ranjan, K.;Sharma, R.;Sharma, V.;Banerjee, S.;Bhattacharya, S.;Chatterjee, K.;Dey, S.;Dutta, S.;Jain, S.;Jain, S.;Khurana, R.;Majumdar, N.;Modak, A.;Mondal, K.;Mukherjee, S.;Mukhopadhyay, S.;Roy, A.;Roy, D.;Chowdhury, S. R.;Sarkar, S.;Sharan, M.;Abdulsalam, A.;Chudasama, R.;Dutta, D.;Jha, V.;Kumar, V.;Mohanty, A. K.;Pant, L. M.;Shukla, P.;Topkar, A.;Aziz, T.;Banerjee, S.;Bhowmik, S.;Chatterjee, R. M.;Dewanjee, R. K.;Dugad, S.;Ganguly, S.;Ghosh, S.;Guchait, M.;Gurtu, A.;Kole, G.;Kumar, S.;Mahakud, B.;Maity, M.;Majumder, G.;Mazumdar, K.;Mitra, S.;Mohanty, G. B.;Panda, B.;Sarkar, T.;Sudhakar, K.;Sur, N.;Sutar, B.;Wickramage, N.;Sharma, S.;Bakhshiansohi, H.;Behnamian, H.;Etesami, S. M.;Fahim, A.;Goldouzian, R.;Khakzad, M.;Najafabadi, M. M.;Naseri, M.;Mehdiabadi, S. P.;Hosseinabadi, F. R.;Safarzadeh, B.;Zeinali, M.;Felcini, M.;Grunewald, M.;Abbrescia, M.;Calabria, C.;Caputo, C.;Chhibra, S. S.;Colaleo, A.;Creanza, D.;Cristella, L.;De Filippis, N.;De Palma, M.;Fiore, L.;Iaselli, G.;Maggi, G.;Maggi, M.;Miniello, G.;My, S.;Nuzzo, S.;Pompili, A.;Pugliese, G.;Radogna, R.;Ranieri, A.;Selvaggi, G.;Silvestris, L.;Venditti, R.;Verwilligen, P.;Abbiendi, G.;Battilana, C.;Benvenuti, A. C.;Bonacorsi, D.;Braibant-Giacomelli, S.;Brigliadori, L.;Campanini, R.;Capiluppi, P.;Castro, A.;Cavallo, F. R.;Codispoti, G.;Cuffiani, M.;Dallavalle, G. M.;Fabbri, F.;Fanfani, A.;Fasanella, D.;Giacomelli, P.;Grandi, C.;Guiducci, L.;Marcellini, S.;Masetti, G.;Montanari, A.;Navarria, F. L.;Perrotta, A.;Rossi, A. M.;Rovelli, T.;Siroli, G. P.;Tosi, N.;Travaglini, R.;Cappello, G.;Chiorboli, M.;Costa, S.;Giordano, F.;Potenza, R.;Tricomi, A.;Tuve, C.;Barbagli, G.;Ciulli, V.;Civinini, C.;D'Alessandro, R.;Focardi, E.;Goilzi, S.;Gori, V.;Lenzi, P.;Meschini, M.;Paoletti, S.;Sguazzoni, G.;Tropiano, A.;Viliani, L.;Benussi, L.;Bianco, S.;Fabbri, F.;Piccolo, D.;Calvelli, V.;Ferro, F.;Lo Vetere, M.;Robutti, E.;Tosi, S.;Dinardo, M. E.;Fiorendi, S.;Gennai, S.;Gerosa, R.;Ghezzi, A.;Govoni, P.;Malvezzi, S.;Manzoni, R. A.;Marzocchi, B.;Menasce, D.;Moroni, L.;Paganoni, M.;Pedrini, D.;Ragazzi, S.;Redaelli, N.;de Fatis, T. T.;Buontempo, S.;Cavallo, N.;Di Guida, S.;Esposito, M.;Fabozzi, F.;Iorio, A. O. M.;Lanza, G.;Lista, L.;Meola, S.;Merola, M.;Paolucci, P.;Sciacca, C.;Thyssen, F.;Azzi, P.;Bacchetta, N.;Bellato, M.;Bisello, D.;Carlin, R.;De Oliveira, A. C. A.;Cheechia, P.;Dall'Osso, M.;Dorigo, T.;Fantinel, S.;Fanzago, F.;Gasparini, F.;Gasparini, U.;Gozzelino, A.;Laeaprara, S.;Margoni, M.;Meneguzzo, A. T.;Pazzini, J.;Pozzobon, N.;Ronchese, P.;Simonetto, F.;Torassa, E.;Tosi, M.;Zanetti, M.;Zotto, P.;Zucchetta, A.;Zumerle, G.;Braghieri, A.;Gabusi, M.;Magnani, A.;Ratti, S. P.;Re, V.;Riccardi, C.;Salvini, P.;Vai, I.;Vitulo, P.;Solestizi, L. A.;Biasini, M.;Bilei, G. M.;Ciangottini, D.;Fano, L.;Lariccia, P.;Mantovani, G.;Menichelli, M.;Saha, A.;Santocchia, A.;Spiezia, A.;Androsov, K.;Azzurri, P.;Bagliesi, G.;Bernardini, J.;Boccali, T.;Broccolo, G.;Castaldi, R.;Ciocci, M. A.;Dell'Orso, R.;Donato, S.;Fedi, G.;Foa, L.;Giassi, A.;Grippo, M. T.;Ligabue, F.;Lomtadze, T.;Martini, L.;Messineo, A.;Palla, F.;Rizzi, A.;Savoy-Navarro, A.;Serban, A. T.;Spagnolo, P.;Squillacioti, P.;Tenchini, R.;Tonelli, G.;Venturi, A.;Verdini, P. G.;Barone, L.;Cavallari, F.;D'Imperio, G.;Del Re, D.;Diemoz, M.;Gelli, S.;Jorda, C.;Longo, E.;Margaroli, F.;Meridiani, P.;Micheli, F.;Organtini, G.;Paramatti, R.;Preiato, F.;Rahatlou, S.;Rovelli, C.;Santanastasio, F.;Traczyk, P.;Amapane, N.;Arcidiacono, R.;Argiro, S.;Arneodo, M.;Bellan, R.;Biino, C.;Cartiglia, N.;Costa, M.;Covarelli, R.;Degano, A.;Dellacasa, G.;Demaria, N.;Finco, L.;Mariotti, C.;Maselli, S.;Migliore, E.;Monaco, V.;Monteil, E.;Musich, M.;Obertino, M. M.;Pacher, L.;Pastrone, N.;Pelliccioni, M.;Angioni, G. L. P.;Ravera, F.;Romero, A.;Ruspa, M.;Sacchi, R.;Solano, A.;Staiano, A.;Tamponi, U.;Belforte, S.;Candelise, V.;Casarsa, M.;Cossutti, F.;Della Ricca, G.;Gobbo, B.;La Licata, C.;Marone, M.;Schizzi, A.;Umer, T.;Zanetti, A.;Chang, S.;Kropivnitskaya, A.;Nam, S. K.;Kim, D. H.;Kim, G. N.;Kim, M. S.;Kong, D. J.;Lee, S.;Oh, Y. D.;Sakharov, A.;Son, D. C.;Cifuentes, J. A. B.;Kim, H.;Kim, T. J.;Ryu, M. S.;Song, S.;Choi, S.;Go, Y.;Gyun, D.;Hong, B.;Jo, M.;Kim, H.;Kim, Y.;Lee, B.;Lee, K.;Lee, K. S.;Lee, S.;Park, S. K.;Roh, Y.;Yoo, H. D.;Choi, M.;Kim, H.;Kim, J. H.;Lee, J. S. H.;Park, I. C.;Ryu, G.;Choi, Y.;Choi, Y. K.;Goh, J.;Kim, D.;Kwon, E.;Lee, J.;Yu, I.;Juodagalvis, A.;Vaitkus, J.;Ahmed, I.;Ibrahim, Z. A.;Komaragiri, J. R.;Ali, Mabm;Idris, F. M.;Abdullah, Watw;Linares, E. C.;Castilla-Valdez, H.;De La Cruz-Burelo, E.;Heredia-de La Cruz, I.;Hernandez-Almada, A.;Lopez-Fernandez, R.;Sanchez-Hernandez, A.;Moreno, S. C.;Valencia, F. V.;Carpinteyro, S.;Pedraza, I.;Ibarguen, H. A. S.;Pineda, A. M.;Krofcheck, D.;Butler, P. H.;Reucroft, S.;Ahmad, A.;Ahmad, M.;Hassan, Q.;Hoorani, H. R.;Khan, W. A.;Khurshid, T.;Shoaib, M.;Bialkowska, H.;Bluj, M.;Boimska, B.;Frueboes, T.;Gorski, M.;Kazana, M.;Nawrocki, K.;Romanowska-Rybinska, K.;Szleper, M.;Zalewski, P.;Brona, G.;Bunkowski, K.;Doroba, K.;Kalinowski, A.;Konecki, M.;Krolikowski, J.;Misiura, M.;Olszewski, M.;Walczak, M.;Bargassa, P.;Silva, Cbde;Di Francesco, A.;Faccioli, P.;Parracho, P. G. F.;Gallinaro, M.;Iglesias, L. L.;Nguyen, F.;Antunes, J. R.;Seixas, J.;Toldaiev, O.;Vadruccio, D.;Varela, J.;Vischia, P.;Afanasiev, S.;Bunin, P.;Gavrilenko, M.;Golutvin, I.;Gorbunov, I.;Kamenev, A.;Karjavin, V.;Konoplyanikov, V.;Lanev, A.;Malakhov, A.;Matveev, V.;Moisenz, P.;Palichik, V.;Perelygin, V.;Shmatov, S.;Shulha, S.;Skatchkov, N.;Smirnov, V.;Zarubin, A.;Golovtsov, V.;Ivanov, Y.;Kim, V.;Kuznetsova, E.;Levchenko, P.;Murzin, V.;Oreshkin, V.;Smirnov, I.;Sulimov, V.;Uvarov, L.;Vavilov, S.;Vorobyev, A.;Andreev, Y.;Dermenev, A.;Gninenko, S.;Golubev, N.;Karneyeu, A.;Kirsanov, M.;Krasnikov, N.;Pashenkov, A.;Tlisov, D.;Toropin, A.;Epshteyn, V.;Gavrilov, V.;Lychkovskaya, N.;Popov, V.;Pozdnyakov, I.;Safronov, G.;Spiridonov, A.;Vlasov, E.;Zhokin, A.;Bylinkin, A.;Andreev, V.;Azarkin, M.;Dremin, I.;Kirakosyan, M.;Leonidov, A.;Mesyats, G.;Rusakov, S. V.;Vinogradov, A.;Baskakov, A.;Belyaev, A.;Boos, E.;Dudko, L.;Ershov, A.;Gribushin, A.;Khein, L.;Klyukhin, V.;Kodolova, O.;Lokhtin, I.;Myagkov, I.;Obraztsov, S.;Petrushanko, S.;Savrin, V.;Snigirev, A.;Azhgirey, I.;Bayshev, I.;Bitioukov, S.;Kachanov, V.;Kalinin, A.;Konstantinov, D.;Krychkine, V.;Petrov, V.;Ryutin, R.;Sobol, A.;Tourtchanovitch, L.;Troshin, S.;Tyurin, N.;Uzunian, A.;Volkov, A.;Adzic, P.;Ekmedzic, M.;Milosevic, J.;Rekovic, V.;Wang, W. Y.;Maestre, J. A.;Calvo, E.;Cerrada, M.;Llatas, M. C.;Colino, N.;De La Cruz, B.;Peris, A. D.;Vazquez, D. D.;Del Valle, A. E.;Bedoya, C. F.;Ramos, J. P. F.;Flix, J.;Fouz, M. C.;Garcia-Abia, P.;Lopez, O. G.;Lopez, S. G.;Hernandez, J. M.;Josa, M. I.;De Martino, E. N.;Yzquierdo, A. P. C.;Pelayo, J. P.;Olmeda, A. Q.;Redondo, I.;Romero, L.;Soares, M. S.;Albajar, C.;de Troconiz, J. F.;Missiroli, M.;Moran, D.;Brun, H.;Cuevas, J.;Menendez, J. F.;Folgueras, S.;Caballero, I. G.;Cortezon, E. P.;Garcia, J. M. V.;Cabrillo, I. J.;Calderon, A.;De Saa, J. R. C.;Manzano, P. D.;Campderros, J. D.;Fernandez, M.;Gomez, G.;Graziano, A.;Virto, A. L.;Marco, J.;Marco, R.;Rivero, C. M.;Matorras, F.;Sanchez, F. J. M.;Gomez, J. P.;Rodrigo, T.;Rodriguez-Marrero, A. Y.;Ruiz-Jimeno, A.;Scodellaro, L.;Vila, I.;Cortabitarte, R. V.;Abbaneo, D.;Auffray, E.;Auzinger, G.;Bachtis, M.;Baillon, P.;Ball, A. H.;Barney, D.;Benaglia, A.;Bendavid, J.;Benhabib, L.;Benitez, J. F.;Berruti, G. M.;Bianchi, G.;Bloch, P.;Bocci, A.;Bonato, A.;Botta, C.;Breuker, H.;Camporesi, T.;Cerminara, G.;Colafranceschi, S.;D'Alfonso, M.;d'Enterria, D.;Dabrowski, A.;Daponte, V.;David, A.;De Gruttola, M.;De Guio, F.;De Roeck, A.;De Visscher, S.;Di Marco, E.;Dobson, M.;Dordevic, M.;du Pree, T.;Dupont, N.;Elliott-Peisert, A.;Eugster, J.;Franzoni, G.;Funk, W.;Gigi, D.;Gill, K.;Giordano, D.;Girone, M.;Glege, F.;Guida, R.;Gundacker, S.;Guthoff, M.;Hammer, J.;Hansen, M.;Harris, P.;Hegeman, J.;Innocente, V.;Janot, P.;Kirschenmann, H.;Kortelainen, M. J.;Kousouris, K.;Krajczar, K.;Lecoq, P.;Lourenco, C.;Lucchini, M. T.;Magini, N.;Malgeri, L.;Mannelli, M.;Marrouche, J.;Martelli, A.;Masetti, L.;Meijers, F.;Mersi, S.;Meschi, E.;Moortgat, F.;Morovic, S.;Mulders, M.;Nemallapudi, M. V.;Neugebauer, H.;Orfanelli, S.;Orsini, L.;Pape, L.;Perez, E.;Petrilli, A.;Petrucciani, G.;Pfeiffer, A.;Piparo, D.;Racz, A.;Rolandi, G.;Rovere, M.;Ruan, M.;Sakulin, H.;Schafer, C.;Schwick, C.;Sharma, A.;Silva, P.;Simon, M.;Sphicas, P.;Spiga, D.;Steggemann, J.;Stieger, B.;Stoye, M.;Takahashi, Y.;Treille, D.;Tsirou, A.;Veres, G. I.;Wardle, N.;Wohri, H. K.;Zagozdzinska, A.;Zeuner, W. D.;Bertl, W.;Deiters, K.;Erdmann, W.;Horisberger, R.;Ingram, Q.;Kaestli, H. C.;Kotlinski, D.;Langenegger, U.;Rohe, T.;Bachmair, F.;Bani, L.;Bianchini, L.;Buchmann, M. A.;Casal, B.;Dissertori, G.;Dittmar, M.;Donega, M.;Dunser, M.;Eller, P.;Grab, C.;Heidegger, C.;Hits, D.;Hoss, J.;Kasieczka, G.;Lustermann, W.;Mangano, B.;Marini, A. C.;Marionneau, M.;del Arbol, P. M. R.;Masciovecchio, M.;Meister, D.;Musella, P.;Nessi-Tedaldi, F.;Pandolfi, F.;Pata, J.;Pauss, F.;Perrozzi, L.;Peruzzi, M.;Quittnat, M.;Rossini, M.;Starodumov, A.;Takahashi, M.;Tavolaro, V. R.;Theofilatos, K.;Wallny, R.;Weber, H. A.;Aarrestad, T. K.;Amsler, C.;Canelli, M. F.;Chiochia, V.;De Cosa, A.;Galloni, C.;Hinzmann, A.;Hreus, T.;Kilminster, B.;Lange, C.;Ngadiuba, J.;Pinna, D.;Robmann, P.;Ronga, F. J.;Salerno, D.;Taroni, S.;Yang, Y.;Cardaci, M.;Chen, K. H.;Doan, T. H.;Ferro, C.;Konyushikhin, M.;Kuo, C. M.;Lin, W.;Lu, Y. J.;Volpe, R.;Yu, S. S.;Bartek, R.;Chang, P.;Chang, Y. H.;Chang, Y. W.;Chao, Y.;Chen, K. F.;Chen, P. H.;Dietz, C.;Fiori, F.;Grundler, U.;Hou, W. S.;Hsiung, Y.;Liu, Y. F.;Lu, R. S.;Moya, M. M.;Petrakou, E.;Tsai, J. F.;Tzeng, Y. M.;Asavapibhop, B.;Kovitanggoon, K.;Singh, G.;Srimanobhas, N.;Suwonjandee, N.;Adiguzel, A.;Cerci, S.;Dozen, C.;Girgis, S.;Gokbulut, G.;Guler, Y.;Gurpinar, E.;Hos, I.;Kangal, E. E.;Topaksu, A. 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D.;Baber, M.;Bainbridge, R.;Buchmuller, O.;Bundock, A.;Burton, D.;Casasso, S.;Citron, M.;Colling, D.;Corpe, L.;Cripps, N.;Dauncey, P.;Davies, G.;De Wit, A.;Della Negra, M.;Dunne, P.;Elwood, A.;Ferguson, W.;Fulcher, J.;Futyan, D.;Hall, G.;Iles, G.;Karapostoli, G.;Kenzie, M.;Lane, R.;Lucas, R.;Lyons, L.;Magnan, A. M.;Malik, S.;Nash, J.;Nikitenko, A.;Pela, J.;Pesaresi, M.;Petridis, K.;Raymond, D. M.;Richards, A.;Rose, A.;Seez, C.;Sharp, P.;Tapper, A.;Uchida, K.;Acosta, M. V.;Virdee, T.;Zenz, S. C.;Cole, J. E.;Hobson, P. R.;Khan, A.;Kyberd, P.;Leggat, D.;Leslie, D.;Reid, I. D.;Symonds, P.;Teodorescu, L.;Turner, M.;Borzou, A.;Dittmann, J.;Hatakeyama, K.;Kasmi, A.;Liu, H.;Pastika, N.;Charaf, O.;Cooper, S. I.;Henderson, C.;Rumerio, P.;Avetisyan, A.;Bose, T.;Fantasia, C.;Gastler, D.;Lawson, P.;Rankin, D.;Richardson, C.;Rohlf, J.;St John, J.;Sulak, L.;Zou, D.;Alimena, J.;Berry, E.;Bhattacharya, S.;Cutts, D.;Dhingra, N.;Ferapontov, A.;Garabedian, A.;Heintz, U.;Laird, E.;Landsberg, G.;Mao, Z.;Narain, M.;Sagir, S.;Sinthuprasith, T.;Breedon, R.;Breto, G.;Sanchez, M. C. D.;Chauhan, S.;Chertok, M.;Conway, J.;Conway, R.;Cox, P. T.;Erbacher, R.;Gardner, M.;Ko, W.;Lander, R.;Mulhearn, M.;Pellett, D.;Pilot, J.;Ricci-Tam, F.;Shalhout, S.;Smith, J.;Squires, M.;Stolp, D.;Tripathi, M.;Wilbur, S.;Yohay, R.;Cousins, R.;Everaerts, P.;Farrell, C.;Hauser, J.;Ignatenko, M.;Rakness, G.;Saltzberg, D.;Takasugi, E.;Valuev, V.;Weber, M.;Burt, K.;Clare, R.;Ellison, J.;Gary, J. W.;Hanson, G.;Heilman, J.;Paneva, M. I.;Jandir, P.;Kennedy, E.;Lacroix, F.;Long, O. R.;Luthra, A.;Malberti, M.;Negrete, M. O.;Shrinivas, A.;Sumowidagdo, S.;Wei, H.;Wimpenny, S.;Branson, J. G.;Cerati, G. B.;Cittolin, S.;D'Agnolo, R. T.;Holzner, A.;Kelley, R.;Klein, D.;Letts, J.;Macneill, I.;Olivito, D.;Pa | Measurement of the underlying event activity using charged-particle jets in proton-proton collisions at root s=2.76 TeV | measurement of the underlying event activity using charged-particle jets in proton-proton collisions at root s=2.76 tev | citation khachatryan sirunyan tumasyan adam asilar bergauer jets proton proton collisions tev. jhep proton proton collisions jets pseudorapidity gev. lhc. multiplicity momenta azimuthal direction. dividing separated. monte carlo generators dynamics.additional hormann hrubec jeitler knunz konig krammer kratschmer liko matsushita mikulec rabady rahbaran rohringer schieck schofbeck strauss treberer treberspurg waltenberger wulz mossolov shumeiko gonzalez alderweireldt cornelis wolf janssen knutsson lauwers luyckx ochesanu rougny klundert haevermaet mechelen remortel spilbeeck zeid blekman hondt daci bruyn deroover heracleous keaveney lowette moreels olbrechts python strom 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bian cheng jiang plestina romeo shaheen asawatangtrakuldee qian avila cabrera sierra florez gomez moreno sanabria godinovic lelas pone puljak antunovic kovac brigljevic kadija luetic sudic attikis mavromanolakis mousa nicolaou ptochos razis rykaczewski bodlak finger finger assran elgammal kamel lotfy mahmoud radi sayed calpas kadastik murumaa raidal tiko veelken eerola pekkanen voutilainen harkonen karimaki kinnunen lampen lassila perini lehti linden luukka maenpaa peltola tuominen tuominiemi tuovinen wendland talvitie tuuva besancon couderc dejardin denegri fabbro faure favaro ferri ganjour givernaud gras monchenault jarry locci machet malcles rander rosowsky titov zghiche baffioni beaudette busson cadamuro chapon charlot dahms davignon filipovic florent cassagnac lisniak mastrolorenzo mine naranjo nguyen ochando ortona paganini regnard salerno sauvan sirois strebler yilmaz zabi agram andrea aubin bloch brom buttignol chabert chanon collard conte coubez fontaine gele goerlach goetzmann bihan merlin skovpen hove gadrat beauceron bernet boudoul bouvier brochet montoya chasserat chierici contardo courbon depasse mamouni gascon gouzevitch ille laktineh lethuillier mirabito pequegnot perries alvarez sabes sgandurra sordini vander donckt verdier viret xiao toriashvili bagaturia autermann beranek edelhoff feld heister kiesel klein lipinski ostapchuk preuten raupach sammet schael schulte verlage weber wittmer zhukov brodski dietz laursonn duchardt endres erdmann erdweg esch fischer guth hebbeker heidemann hoepfner klingebiel knutzen kreuzer merschmeyer meyer millet olschewski padeken papacz pook radziej reithler rieger scheuch sonnenschein teyssier thuer cherepanov erdogan flugge geenen geisler hoehle kargoll kress kuessel kunsken lingemann nehrkorn nowack nugent pistone pooth stahl martin asin bartosik behnke behrens bell borras burgmeier cakir calligaris campbell choudhury costanza pardos dolinska dooling dorland eckerlin eckstein eichhorn flucke gallo garcia geiser gizhko gunnellini hauk hempel jung kalogeropoulos karacheban kasemann katsas kieseler kleinwort korol lange leonard lipka lobanov lohmann mankel marfin melzer pellmann meyer mittag mnich mussgiller naumann emme nayak ntomari perrey pitzl placakyte raspereza cipriano roland sahin salfeld nebgen saxena schoerner sadenius schroder seitz spannagel trippkewitz wissing blobel vignali draeger erfle garutti goebel gonzalez gorner haller hoffmann hoing junkes klanner kogler lapsien lenz marchesini marconi nowatschin pantaleo peiffer perieanu pietsch poehlsen rathjens sander schettler schleper schlieckau schmidt schwandt seidel sola stadie steinbruck tholen troendle usai vanelderen vanhoefer akbiyik barth baus berger boser butz chwalek colombo boer descroix dierlamm feindt frensch giffels gilbert hartmann husemann kassel katkov kornmayer pardo mozer muller muller plagge quast rabbertz rocker roscher simonis stober ulrich wagner kuhr wayand weiler wohrmann wolf anagnostou daskalakis geralis giakoumopoulou kyriakis loukas markou psallidas topsis giotis agapitos kesisoglou panagiotou saoulidou tziaferi evangelou flouris foudas kokkas loukas manthos papadopoulos paradas strologas bencze hajdu hazi hidas horvath sikler veszpremi vesztergombi zsigmond beni czellar karancsi molnar szillasi bartok makovec raics trocsanyi ujvari mandal sahoo swain bansal beri bhatnagar chawla gupta bhawandeep kalsi kaur kaur kumar mehta mittal nishu singh walia kumar kumar bhardwaj choudhary garg kumar malhotra naimuddin ranjan sharma sharma banerjee bhattacharya chatterjee dutta jain jain khurana majumdar modak mondal mukherjee mukhopadhyay chowdhury sarkar sharan abdulsalam chudasama dutta kumar mohanty pant shukla topkar aziz banerjee bhowmik chatterjee dewanjee dugad ganguly ghosh guchait gurtu kole kumar mahakud maity majumder mazumdar mitra mohanty panda sarkar sudhakar sutar wickramage sharma bakhshiansohi behnamian etesami fahim goldouzian khakzad najafabadi naseri mehdiabadi hosseinabadi safarzadeh zeinali felcini grunewald abbrescia calabria caputo chhibra colaleo creanza cristella filippis palma fiore iaselli maggi maggi miniello nuzzo pompili pugliese radogna ranieri selvaggi silvestris venditti verwilligen abbiendi battilana benvenuti bonacorsi braibant giacomelli brigliadori campanini capiluppi castro cavallo codispoti cuffiani dallavalle fabbri fanfani fasanella giacomelli grandi guiducci marcellini masetti montanari navarria perrotta rossi rovelli siroli tosi travaglini cappello chiorboli costa giordano potenza tricomi tuve barbagli ciulli civinini alessandro focardi goilzi gori lenzi meschini paoletti sguazzoni tropiano viliani benussi bianco fabbri piccolo calvelli ferro vetere robutti tosi dinardo fiorendi gennai gerosa ghezzi govoni malvezzi manzoni marzocchi menasce moroni paganoni pedrini ragazzi redaelli fatis buontempo cavallo guida esposito fabozzi iorio lanza lista meola merola paolucci sciacca thyssen azzi bacchetta bellato bisello carlin oliveira cheechia dall osso dorigo fantinel fanzago gasparini gasparini gozzelino laeaprara margoni meneguzzo pazzini pozzobon ronchese simonetto torassa tosi zanetti zotto zucchetta zumerle braghieri gabusi magnani ratti riccardi salvini vitulo solestizi biasini bilei ciangottini fano lariccia mantovani menichelli saha santocchia spiezia androsov azzurri bagliesi bernardini boccali broccolo castaldi ciocci dell orso donato fedi giassi grippo ligabue lomtadze martini messineo palla rizzi savoy navarro serban spagnolo squillacioti tenchini tonelli venturi verdini barone cavallari imperio diemoz gelli jorda longo margaroli meridiani micheli organtini paramatti preiato rahatlou rovelli santanastasio traczyk amapane arcidiacono argiro arneodo bellan biino cartiglia costa covarelli degano dellacasa demaria finco mariotti maselli migliore monaco monteil musich obertino pacher pastrone pelliccioni angioni ravera romero ruspa sacchi solano staiano tamponi belforte candelise casarsa cossutti della ricca gobbo licata marone schizzi umer zanetti chang kropivnitskaya kong sakharov cifuentes song choi gyun hong park choi park choi choi kwon juodagalvis vaitkus ahmed ibrahim komaragiri mabm idris abdullah watw linares castilla valdez cruz burelo heredia cruz hernandez almada lopez fernandez sanchez hernandez moreno valencia carpinteyro pedraza ibarguen pineda krofcheck butler reucroft ahmad ahmad hassan hoorani khan khurshid shoaib bialkowska bluj boimska frueboes gorski kazana nawrocki romanowska rybinska szleper zalewski brona bunkowski doroba kalinowski konecki krolikowski misiura olszewski walczak bargassa silva cbde francesco faccioli parracho gallinaro iglesias nguyen antunes seixas toldaiev vadruccio varela vischia afanasiev bunin gavrilenko golutvin gorbunov kamenev karjavin konoplyanikov lanev malakhov matveev moisenz palichik perelygin shmatov shulha skatchkov smirnov zarubin golovtsov ivanov kuznetsova levchenko murzin oreshkin smirnov sulimov uvarov vavilov vorobyev andreev dermenev gninenko golubev karneyeu kirsanov krasnikov pashenkov tlisov toropin epshteyn gavrilov lychkovskaya popov pozdnyakov safronov spiridonov vlasov zhokin bylinkin andreev azarkin dremin kirakosyan leonidov mesyats rusakov vinogradov baskakov belyaev boos dudko ershov gribushin khein klyukhin kodolova lokhtin myagkov obraztsov petrushanko savrin snigirev azhgirey bayshev bitioukov kachanov kalinin konstantinov krychkine petrov ryutin sobol tourtchanovitch troshin tyurin uzunian volkov adzic ekmedzic milosevic rekovic maestre calvo cerrada llatas colino cruz peris vazquez valle bedoya ramos flix fouz garcia abia lopez lopez hernandez josa martino yzquierdo pelayo olmeda redondo romero soares albajar troconiz missiroli moran brun cuevas menendez folgueras caballero cortezon garcia cabrillo calderon manzano campderros fernandez gomez graziano virto marco marco rivero matorras sanchez gomez rodrigo rodriguez marrero ruiz jimeno scodellaro vila cortabitarte abbaneo auffray 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themistocleous thea thomas tomalin williams womersley worm baber bainbridge buchmuller bundock burton casasso citron colling corpe cripps dauncey davies della negra dunne elwood ferguson fulcher futyan hall iles karapostoli kenzie lane lucas lyons magnan malik nash nikitenko pela pesaresi petridis raymond richards rose seez sharp tapper uchida acosta virdee zenz cole hobson khan kyberd leggat leslie reid symonds teodorescu turner borzou dittmann hatakeyama kasmi pastika charaf cooper henderson rumerio avetisyan bose fantasia gastler lawson rankin richardson rohlf john sulak alimena berry bhattacharya cutts dhingra ferapontov garabedian heintz laird landsberg narain sagir sinthuprasith breedon breto sanchez chauhan chertok conway conway erbacher gardner lander mulhearn pellett pilot ricci shalhout squires stolp tripathi wilbur yohay cousins everaerts farrell hauser ignatenko rakness saltzberg takasugi valuev weber burt clare ellison gary hanson heilman paneva jandir kennedy lacroix luthra malberti negrete shrinivas sumowidagdo wimpenny branson cerati cittolin agnolo holzner kelley klein letts macneill olivito | non_dup | [] |
55640078 | 10.1007/jhep09(2015)141 | It was found that the non-perturbative corrections calculated using Pythia with the Perugia 2011 tune did not include the effect of the underlying event. The affected correction factors were recomputed using the Pythia 6.427 generator. These corrections are applied as baseline to the NLO pQCD calculations and thus the central values of the theoretical predictions have changed by a few percent with the new corrections. This has a minor impact on the agreement between the data and the theoretical predictions. Figures 2 and 6 to 13, and all the tables have been updated with the new values. A few sentences in the discussion in sections 5.2 and 9 were altered or removed | Erratum: Measurement of the inclusive jet cross-section in proton-proton collisions at s√=7 TeV using 4.5 fb−1 of data with the ATLAS detector | erratum: measurement of the inclusive jet cross-section in proton-proton collisions at s√=7 tev using 4.5 fb−1 of data with the atlas detector | perturbative pythia perugia tune event. recomputed pythia generator. pqcd changed percent corrections. minor predictions. tables updated values. sentences altered removed | non_dup | [] |
33381568 | 10.1007/jhep09(2015)201 | Citation: Khachatryan, V., Sirunyan, A. M., Tumasyan, A., Adam, W., Asilar, E., Bergauer, T., . . . Collaboration, C. M. S. (2015). Search for neutral color-octet weak-triplet scalar particles in proton-proton collisions at root s=8TeV. Journal of High Energy Physics(9), 37. doi:10.1007/jhep09(2015)201A search for pair production of neutral color-octet weak-triplet scalar particles (Theta(0)) is performed in processes where one Theta(0) decays to a pair of b quark jets and the other to a Z boson plus a jet, with the Z boson decaying to a pair of electrons or muons. The search is performed with data collected by the CMS experiment at the CERN LHC corresponding to an integrated luminosity of 19.7 fb(-1) of proton-proton collisions at root s = 8TeV. The number of observed events is found to be in agreement with the standard model predictions. The 95% confidence level upper limit on the product of the cross section and branching fraction is obtained as a function of the Theta(0) mass. The 95% confidence level lower bounds on the Theta(0) mass are found to be 623 and 426 GeV, for two different octo-triplet theoretical scenarios. These are the first direct experimental bounds on particles predicted by the octo-triplet model.Additional Authors: Hormann, N.;Hrubec, J.;Jeitler, M.;Knunz, V.;Konig, A.;Krammer, M.;Kratschmer, I.;Liko, D.;Matsushita, T.;Mikulec, I.;Rabady, D.;Rahbaran, B.;Rohringer, H.;Schieck, J.;Schofbeck, R.;Strauss, J.;Treberer-Treberspurg, W.;Waltenberger, W.;Wulz, C. E.;Mossolov, V.;Shumeiko, N.;Gonzalez, J. S.;Alderweireldt, S.;Cornelis, T.;De Wolf, E. A.;Janssen, X.;Knutsson, A.;Lauwers, J.;Luyckx, S.;Ochesanu, S.;Rougny, R.;Van de Klundert, M.;Van Haevermaet, H.;Van Mechelen, P.;Van Remortel, N.;Van Spilbeeck, A.;Abu Zeid, S.;Blekman, F.;D'Hondt, J.;Daci, N.;De Bruyn, I.;Deroover, K.;Heracleous, N.;Keaveney, J.;Lowette, S.;Moreels, L.;Olbrechts, A.;Python, Q.;Strom, D.;Tavernier, S.;Van Doninck, W.;Van Mulders, P.;Van Onsem, G. P.;Van Parijs, I.;Barria, P.;Caillol, C.;Clerbaux, B.;De Lentdecker, G.;Delannoy, H.;Dobur, D.;Fasanella, G.;Favart, L.;Gay, A. P. R.;Grebenyuk, A.;Leonard, A.;Mohammadi, A.;Pernie, L.;Randleconde, A.;Reis, T.;Seva, T.;Thomas, L.;Vander Velde, C.;Vanlaer, P.;Wang, J.;Zenoni, F.;Zhang, F.;Beernaert, K.;Benucci, L.;Cimmino, A.;Crucy, S.;Fagot, A.;Garcia, G.;Gul, M.;McCartin, J.;Rios, A. A. O.;Poyraz, D.;Ryckbosch, D.;Diblen, S. S.;Sigamani, M.;Strobbe, N.;Tytgat, M.;Van Driessche, W.;Yazgan, E.;Zaganidis, N.;Basegmez, S.;Beluffi, C.;Bondu, O.;Bruno, G.;Castello, R.;Caudron, A.;Ceard, L.;Da Silveira, G. G.;Delaere, C.;Favart, D.;Forthomme, L.;Giammanco, A.;Hollar, J.;Jafari, A.;Jez, P.;Komm, M.;Lemaitre, V.;Mertens, A.;Nuttens, C.;Perrini, L.;Pin, A.;Piotrzkowski, K.;Popov, A.;Quertenmont, L.;Selvaggi, M.;Marono, M. V.;Beliy, N.;Caebergs, T.;Hammad, G. H.;Alda, W. L.;Alves, G. A.;Brito, L.;Martins, M. C.;Martins, T. D.;Hensel, C.;Herrera, C. M.;Moraes, A.;Pol, M. E.;Teles, P. R.;Das Chagas, E. B. B.;Carvalho, W.;Chinellato, J.;Custodio, A.;Da Costa, E. M.;Damiao, D. D.;Martins, C. D.;De Souza, S. F.;Guativa, L. M. H.;Malbouisson, H.;Figueiredo, D. M.;Mundim, L.;Nogima, H.;Da Silva, W. L. P.;Santoro, A.;Sznajder, A.;Manganote, E. J. T.;Pereira, V.;Ahuja, S.;Bernardes, C. A.;Santos, A. D.;Dogra, S.;Tomei, Trfp;Gregores, E. M.;Mercadante, P. G.;Moon, C. S.;Novaes, S. F.;Padula, S. S.;Abad, D. R.;Vargas, J. C. R.;Aleksandrov, A.;Genchev, V.;Hadjiiska, R.;Iaydjiev, P.;Marinov, A.;Piperov, S.;Rodozov, M.;Stoykova, S.;Sultanov, G.;Vutova, M.;Dimitrov, A.;Glushkov, I.;Litov, L.;Pavlov, B.;Petkov, P.;Ahmad, M.;Bian, J. G.;Chen, G. M.;Chen, H. S.;Chen, M.;Cheng, T.;Du, R.;Jiang, C. H.;Plestina, R.;Romeo, F.;Shaheen, S. M.;Tao, J.;Wang, C.;Wang, Z.;Zhang, H.;Asawatangtrakuldee, C.;Ban, Y.;Li, Q.;Liu, S.;Mao, Y.;Qian, S. J.;Wang, D.;Xu, Z.;Zou, W.;Avila, C.;Cabrera, A.;Sierra, L. F. C.;Florez, C.;Gomez, J. P.;Moreno, B. G.;Sanabria, J. C.;Godinovic, N.;Lelas, D.;Polic, D.;Puljak, I.;Antunovic, Z.;Kovac, M.;Brigljevic, V.;Kadija, K.;Luetic, J.;Sudic, L.;Attikis, A.;Mavromanolakis, G.;Mousa, J.;Nicolaou, C.;Ptochos, F.;Razis, P. A.;Rykaczewski, H.;Bodlak, M.;Finger, M.;Finger, M.;Ali, A.;Aly, R.;Aly, S.;Elgammal, S.;Kamel, A. E.;Lotfy, A.;Mahmoud, M. A.;Masod, R.;Radi, A.;Calpas, B.;Kadastik, M.;Murumaa, M.;Raidal, M.;Tiko, A.;Veelken, C.;Eerola, P.;Voutilainen, M.;Harkonen, J.;Karimaki, V.;Kinnunen, R.;Lampen, T.;Lassila-Perini, K.;Lehti, S.;Linden, T.;Luukka, P.;Maenpaa, T.;Pekkanen, J.;Peltola, T.;Tuominen, E.;Tuominiemi, J.;Tuovinen, E.;Wendland, L.;Talvitie, J.;Tuuva, T.;Besancon, M.;Couderc, F.;Dejardin, M.;Denegri, D.;Fabbro, B.;Faure, J. L.;Favaro, C.;Ferri, F.;Ganjour, S.;Givernaud, A.;Gras, P.;de Monchenault, G. H.;Jarry, P.;Locci, E.;Machet, M.;Malcles, J.;Rander, J.;Rosowsky, A.;Titov, M.;Zghiche, A.;Baffioni, S.;Beaudette, F.;Busson, P.;Cadamuro, L.;Chapon, E.;Charlot, C.;Dahms, T.;Davignon, O.;Filipovic, N.;Florent, A.;de Cassagnac, R. G.;Lisniak, S.;Mastrolorenzo, L.;Mine, P.;Naranjo, I. N.;Nguyen, M.;Ochando, C.;Ortona, G.;Paganini, P.;Regnard, S.;Salerno, R.;Sauvan, J. B.;Sirois, Y.;Strebler, T.;Yilmaz, Y.;Zabi, A.;Agram, J. L.;Andrea, J.;Aubin, A.;Bloch, D.;Brom, J. M.;Buttignol, M.;Chabert, E. C.;Chanon, N.;Collard, C.;Conte, E.;Fontaine, J. C.;Gele, D.;Goerlach, U.;Goetzmann, C.;Le Bihan, A. C.;Merlin, J. A.;Skovpen, K.;Van Hove, P.;Gadrat, S.;Beauceron, S.;Beaupere, N.;Bernet, C.;Boudoul, G.;Bouvier, E.;Brochet, S.;Montoya, C. A. C.;Chasserat, J.;Chierici, R.;Contardo, D.;Courbon, B.;Depasse, P.;El Mamouni, H.;Fan, J.;Fay, J.;Gascon, S.;Gouzevitch, M.;Ille, B.;Laktineh, I. B.;Lethuillier, M.;Mirabito, L.;Pequegnot, A. L.;Perries, S.;Alvarez, J. D. R.;Sabes, D.;Sgandurra, L.;Sordini, V.;Donckt, M. V.;Verdier, P.;Viret, S.;Xiao, H.;Lomidze, D.;Autermann, C.;Beranek, S.;Edelhoff, M.;Feld, L.;Heister, A.;Kiesel, M. K.;Klein, K.;Lipinski, M.;Ostapchuk, A.;Preuten, M.;Raupach, F.;Sammet, J.;Schael, S.;Schulte, J. F.;Verlage, T.;Weber, H.;Wittmer, B.;Zhukov, V.;Ata, M.;Brodski, M.;Dietz-Laursonn, E.;Duchardt, D.;Endres, M.;Erdmann, M.;Erdweg, S.;Esch, T.;Fischer, R.;Guth, A.;Hebbeker, T.;Heidemann, C.;Hoepfner, K.;Klingebiel, D.;Knutzen, S.;Kreuzer, P.;Merschmeyer, M.;Meyer, A.;Millet, P.;Olschewski, M.;Padeken, K.;Papacz, P.;Pook, T.;Radziej, M.;Reithler, H.;Rieger, M.;Scheuch, F.;Sonnenschein, L.;Teyssier, D.;Thuer, S.;Cherepanov, V.;Erdogan, Y.;Flugge, G.;Geenen, H.;Geisler, M.;Ahmad, W. H.;Hoehle, F.;Kargoll, B.;Kress, T.;Kuessel, Y.;Kunsken, A.;Lingemann, J.;Nehrkorn, A.;Nowack, A.;Nugent, I. M.;Pistone, C.;Pooth, O.;Stahl, A.;Martin, M. A.;Asin, I.;Bartosik, N.;Behnke, O.;Behrens, U.;Bell, A. J.;Borras, K.;Burgmeier, A.;Cakir, A.;Calligaris, L.;Campbell, A.;Choudhury, S.;Costanza, F.;Pardos, C. D.;Dolinska, G.;Dooling, S.;Dorland, T.;Eckerlin, G.;Eckstein, D.;Eichhorn, T.;Flucke, G.;Gallo, E.;Garcia, J. G.;Geiser, A.;Gizhko, A.;Gunnellini, P.;Hauk, J.;Hempel, M.;Jung, H.;Kalogeropoulos, A.;Karacheban, O.;Kasemann, M.;Katsas, P.;Kieseler, J.;Kleinwort, C.;Korol, I.;Lange, W.;Leonard, J.;Lipka, K.;Lobanov, A.;Lohmann, W.;Mankel, R.;Marfin, I.;Melzer-Pellmann, I. A.;Meyer, A. B.;Mittag, G.;Mnich, J.;Mussgiller, A.;Naumann-Emme, S.;Nayak, A.;Ntomari, E.;Perrey, H.;Pitzl, D.;Placakyte, R.;Raspereza, A.;Cipriano, P. M. R.;Roland, B.;Sahin, M. O.;Salfeld-Nebgen, J.;Saxena, P.;Schoerner-Sadenius, T.;Schroder, M.;Spannagel, S.;Trippkewitz, K. D.;Wissing, C.;Blobel, V.;Vignali, M. C.;Draeger, A. R.;Erfle, J.;Garutti, E.;Goebel, K.;Gonzalez, D.;Gorner, M.;Haller, J.;Hoffmann, M.;Hoing, R. S.;Junkes, A.;Klanner, R.;Kogler, R.;Lapsien, T.;Lenz, T.;Marchesini, I.;Marconi, D.;Nowatschin, D.;Ott, J.;Pantaleo, F.;Peiffer, T.;Perieanu, A.;Pietsch, N.;Poehlsen, J.;Rathjens, D.;Sander, C.;Schettler, H.;Schleper, P.;Schlieckau, E.;Schmidt, A.;Seidel, M.;Sola, V.;Stadie, H.;Steinbruck, G.;Tholen, H.;Troendle, D.;Usai, E.;Vanelderen, L.;Vanhoefer, A.;Akbiyik, M.;Barth, C.;Baus, C.;Berger, J.;Boser, C.;Butz, E.;Chwalek, T.;Colombo, F.;De Boer, W.;Descroix, A.;Dierlamm, A.;Feindt, M.;Frensch, F.;Giffels, M.;Gilbert, A.;Hartmann, F.;Husemann, U.;Kassel, F.;Katkov, I.;Kornmayer, A.;Pardo, P. L.;Mozer, M. U.;Muller, T.;Muller, T.;Plagge, M.;Quast, G.;Rabbertz, K.;Rocker, S.;Roscher, F.;Simonis, H. J.;Stober, F. M.;Ulrich, R.;Wagner-Kuhr, J.;Wayand, S.;Weiler, T.;Wohrmann, C.;Wolf, R.;Anagnostou, G.;Daskalakis, G.;Geralis, T.;Giakoumopoulou, V. A.;Kyriakis, A.;Loukas, D.;Markou, A.;Psallidas, A.;Topsis-Giotis, I.;Agapitos, A.;Kesisoglou, S.;Panagiotou, A.;Saoulidou, N.;Tziaferi, E.;Evangelou, I.;Flouris, G.;Foudas, C.;Kokkas, P.;Loukas, N.;Manthos, N.;Papadopoulos, I.;Paradas, E.;Strologas, J.;Bencze, G.;Hajdu, C.;Hazi, A.;Hidas, P.;Horvath, D.;Sikler, F.;Veszpremi, V.;Vesztergombi, G.;Zsigmond, A. J.;Beni, N.;Czellar, S.;Karancsi, J.;Molnar, J.;Szillasi, Z.;Bartok, M.;Makovec, A.;Raics, P.;Trocsanyi, Z. L.;Ujvari, B.;Mal, P.;Mandal, K.;Sahoo, N.;Swain, S. K.;Beri, S. B.;Bhatnagar, V.;Chawla, R.;Gupta, R.;Bhawandeep, U.;Kalsi, A. K.;Kaur, A.;Kaur, M.;Kumar, R.;Mehta, A.;Mittal, M.;Nishu, N.;Singh, J. B.;Walia, G.;Kumar, A.;Kumar, A.;Bhardwaj, A.;Choudhary, B. C.;Garg, R. B.;Kumar, A.;Malhotra, S.;Naimuddin, M.;Ranjan, K.;Sharma, R.;Sharma, V.;Banerjee, S.;Bhattacharya, S.;Chatterjee, K.;Dey, S.;Dutta, S.;Jain, S.;Jain, S.;Khurana, R.;Majumdar, N.;Modak, A.;Mondal, K.;Mukherjee, S.;Mukhopadhyay, S.;Roy, A.;Roy, D.;Chowdhury, S. R.;Sarkar, S.;Sharan, M.;Abdulsalam, A.;Chudasama, R.;Dutta, D.;Jha, V.;Kumar, V.;Mohanty, A. K.;Pant, L. M.;Shukla, P.;Topkar, A.;Aziz, T.;Banerjee, S.;Bhowmik, S.;Chatterjee, R. M.;Dewanjee, R. K.;Dugad, S.;Ganguly, S.;Ghosh, S.;Guchait, M.;Gurtu, A.;Kole, G.;Kumar, S.;Mahakud, B.;Maity, M.;Majumder, G.;Mazumdar, K.;Mitra, S.;Mohanty, G. B.;Parida, B.;Sarkar, T.;Sudhakar, K.;Sur, N.;Sutar, B.;Wickramage, N.;Sharma, S.;Bakhshiansohi, H.;Behnamian, H.;Etesami, S. M.;Fahim, A.;Goldouzian, R.;Khakzad, M.;Najafabadi, M. M.;Naseri, M.;Mehdiabadi, S. P.;Hosseinabadi, F. R.;Safarzadeh, B.;Zeinali, M.;Felcini, M.;Grunewald, M.;Calabria, C.;Caputo, C.;Chhibra, S. S.;Colaleo, A.;Creanza, D.;Cristella, L.;De Filippis, N.;De Palma, M.;Fiore, L.;Iaselli, G.;Maggi, G.;Maggi, M.;Miniello, G.;My, S.;Nuzzo, S.;Pompili, A.;Pugliese, G.;Radogna, R.;Ranieri, A.;Selvaggi, G.;Sharma, A.;Silvestris, L.;Venditti, R.;Verwilligen, P.;Abbiendi, G.;Battilana, C.;Benvenuti, A. C.;Bonacorsi, D.;Braibant-Giacomelli, S.;Brigliadori, L.;Campanini, R.;Capiluppi, P.;Castro, A.;Cavallo, F. R.;Codispoti, G.;Cuffiani, M.;Dallavalle, G. M.;Fabbri, F.;Fanfani, A.;Fasanella, D.;Giacomelli, P.;Grandi, C.;Guiducci, L.;Marcellini, S.;Masetti, G.;Montanari, A.;Navarria, F. L.;Perrotta, A.;Rossi, A. M.;Rovelli, T.;Siroli, G. P.;Tosi, N.;Travaglini, R.;Cappello, G.;Chiorboli, M.;Costa, S.;Giordano, F.;Potenza, R.;Tricomi, A.;Tuve, C.;Barbagli, G.;Ciulli, V.;Civinini, C.;D'Alessandro, R.;Focardi, E.;Gonzi, S.;Gori, V.;Lenzi, P.;Meschini, M.;Paoletti, S.;Sguazzoni, G.;Tropiano, A.;Viliani, L.;Benussi, L.;Bianco, S.;Fabbri, F.;Piccolo, D.;Calvelli, V.;Ferro, F.;Lo Vetere, M.;Robutti, E.;Tosi, S.;Dinardo, M. E.;Fiorendi, S.;Gennai, S.;Gerosa, R.;Ghezzi, A.;Govoni, P.;Malvezzi, S.;Manzoni, R. A.;Marzocchi, B.;Menasce, D.;Moroni, L.;Paganoni, M.;Pedrini, D.;Ragazzi, S.;Redaelli, N.;de Fatis, T. T.;Buontempo, S.;Cavallo, N.;Di Guida, S.;Esposito, M.;Fabozzi, F.;Iorio, A. O. M.;Lanza, G.;Lista, L.;Meola, S.;Merola, M.;Paolucci, P.;Sciacca, C.;Thyssen, F.;Azzi, P.;Bacchetta, N.;Bisello, D.;Carlin, R.;De Oliveira, A. C. A.;Checchia, P.;Dall'Osso, M.;Dorigo, T.;Gasparini, F.;Gasparini, U.;Gozzelino, A.;Lacaprara, S.;Margoni, M.;Meneguzzo, A. T.;Pazzini, J.;Pozzobon, N.;Ronchese, P.;Sgaravatto, M.;Simonetto, F.;Torassa, E.;Tosi, M.;Vanini, S.;Ventura, S.;Zanetti, M.;Zotto, P.;Zucchetta, A.;Zumerle, G.;Braghieri, A.;Gabusi, M.;Magnani, A.;Ratti, S. P.;Re, V.;Riccardi, C.;Salvini, P.;Vai, I.;Vitulo, P.;Solestizi, L. A.;Biasini, M.;Bilei, G. M.;Ciangottini, D.;Fano, L.;Lariccia, P.;Mantovani, G.;Menichelli, M.;Saha, A.;Santocchia, A.;Spiezia, A.;Androsov, K.;Azzurri, P.;Bagliesi, G.;Bernardini, J.;Boccali, T.;Broccolo, G.;Castaldi, R.;Ciocci, M. A.;Dell'Orso, R.;Donato, S.;Fedi, G.;Foa, L.;Giassi, A.;Grippo, M. T.;Ligabue, F.;Lomtadze, T.;Martini, L.;Messineo, A.;Palla, F.;Rizzi, A.;Savoy-Navarro, A.;Serban, A. T.;Spagnolo, P.;Squillacioti, P.;Tenchini, R.;Tonelli, G.;Venturi, A.;Verdini, P. G.;Barone, L.;Cavallari, F.;D'Imperio, G.;Del Re, D.;Diemoz, M.;Gelli, S.;Jorda, C.;Longo, E.;Margaroli, F.;Meridiani, P.;Micheli, F.;Organtini, G.;Paramatti, R.;Preiato, F.;Rahatlou, S.;Rovelli, C.;Santanastasio, F.;Soffi, L.;Traczyk, P.;Amapane, N.;Arcidiacono, R.;Argiro, S.;Arneodo, M.;Bellan, R.;Biino, C.;Cartiglia, N.;Casasso, S.;Costa, M.;Covarelli, R.;Degano, A.;Demaria, N.;Finco, L.;Mariotti, C.;Maselli, S.;Migliore, E.;Monaco, V.;Musich, M.;Obertino, M. M.;Pacher, L.;Pastrone, N.;Pelliccioni, M.;Angioni, G. L. P.;Romero, A.;Ruspa, M.;Sacchi, R.;Solano, A.;Staiano, A.;Tamponi, U.;Trapani, P.;Belforte, S.;Candelise, V.;Casarsa, M.;Cossutti, F.;Della Ricca, G.;Gobbo, B.;La Licata, C.;Marone, M.;Schizzi, A.;Umer, T.;Zanetti, A.;Chang, S.;Kropivnitskaya, A.;Nam, S. K.;Kim, D. H.;Kim, G. N.;Kim, M. S.;Kong, D. J.;Lee, S.;Oh, Y. D.;Sakharov, A.;Son, D. C.;Kim, H.;Kim, T. J.;Ryu, M. S.;Song, S.;Choi, S.;Go, Y.;Gyun, D.;Hong, B.;Jo, M.;Kim, H.;Kim, Y.;Lee, B.;Lee, K.;Lee, K. S.;Lee, S.;Park, S. K.;Roh, Y.;Yoo, H. D.;Choi, M.;Kim, J. H.;Lee, J. S. H.;Park, I. C.;Ryu, G.;Choi, Y.;Choi, Y. K.;Goh, J.;Kim, D.;Kwon, E.;Lee, J.;Yu, I.;Juodagalvis, A.;Vaitkus, J.;Ibrahim, Z. A.;Komaragiri, J. R.;Ali, Mabm;Idris, F. M.;Abdullah, Watw;Linares, E. C.;Castilla-Valdez, H.;De La Cruz-Burelo, E.;La Cruz, I. H. D.;Hernandez-Almada, A.;Lopez-Fernandez, R.;Sanchez, G. R.;Sanchez-Hernandez, A.;Moreno, S. C.;Valencia, F. V.;Carpinteyro, S.;Pedraza, I.;Ibarguen, H. A. S.;Pineda, A. M.;Krofcheck, D.;Butler, P. H.;Reucroft, S.;Ahmad, A.;Ahmad, M.;Hassan, Q.;Hoorani, H. R.;Khan, W. A.;Khurshid, T.;Shoaib, M.;Bialkowska, H.;Bluj, M.;Boimska, B.;Frueboes, T.;Gorski, M.;Kazana, M.;Nawrocki, K.;Romanowska-Rybinska, K.;Szleper, M.;Zalewski, P.;Brona, G.;Bunkowski, K.;Doroba, K.;Kalinowski, A.;Konecki, M.;Krolikowski, J.;Misiura, M.;Olszewski, M.;Walczak, M.;Bargassa, P.;Silva, Cbde;Di Francesco, A.;Faccioli, P.;Parracho, P. G. F.;Gallinaro, M.;Iglesias, L. L.;Nguyen, F.;Antunes, J. R.;Seixas, J.;Toldaiev, O.;Vadruccio, D.;Varela, J.;Vischia, P.;Afanasiev, S.;Bunin, P.;Gavrilenko, M.;Golutvin, I.;Gorbunov, I.;Kamenev, A.;Karjavin, V.;Konoplyanikov, V.;Lanev, A.;Malakhov, A.;Matveev, V.;Moisenz, P.;Palichik, V.;Perelygin, V.;Shmatov, S.;Shulha, S.;Skatchkov, N.;Smirnov, V.;Toriashvili, T.;Zarubin, A.;Golovtsov, V.;Ivanov, Y.;Kim, V.;Kuznetsova, E.;Levchenko, P.;Murzin, V.;Oreshkin, V.;Smirnov, I.;Sulimov, V.;Uvarov, L.;Vavilov, S.;Vorobyev, A.;Andreev, Y.;Dermenev, A.;Gninenko, S.;Golubev, N.;Karneyeu, A.;Kirsanov, M.;Krasnikov, N.;Pashenkov, A.;Tlisov, D.;Toropin, A.;Epshteyn, V.;Gavrilov, V.;Lychkovskaya, N.;Popov, V.;Pozdnyakov, I.;Safronov, G.;Spiridonov, A.;Vlasov, E.;Zhokin, A.;Bylinkin, A.;Andreev, V.;Azarkin, M.;Dremin, I.;Kirakosyan, M.;Leonidov, A.;Mesyats, G.;Rusakov, S. V.;Vinogradov, A.;Baskakov, A.;Belyaev, A.;Boos, E.;Dubinin, M.;Dudko, L.;Ershov, A.;Gribushin, A.;Klyukhin, V.;Kodolova, O.;Lokhtin, I.;Myagkov, I.;Obraztsov, S.;Petrushanko, S.;Savrin, V.;Snigirev, A.;Azhgirey, I.;Bayshev, I.;Bitioukov, S.;Kachanov, V.;Kalinin, A.;Konstantinov, D.;Krychkine, V.;Petrov, V.;Ryutin, R.;Sobol, A.;Tourtchanovitch, L.;Troshin, S.;Tyurin, N.;Uzunian, A.;Volkov, A.;Adzic, P.;Ekmedzic, M.;Milosevic, J.;Rekovic, V.;Maestre, J. A.;Calvo, E.;Cerrada, M.;Llatas, M. C.;Colino, N.;De la Cruz, B.;Peris, A. D.;Vazquez, D. D.;Del Valle, A. E.;Bedoya, C. F.;Ramos, J. P. F.;Flix, J.;Fouz, M. C.;Garcia-Abia, P.;Lopez, O. G.;Lopez, S. G.;Hernandez, J. M.;Josa, M. I.;De Martino, E. N.;Yzquierdo, A. P. C.;Pelayo, J. P.;Olmeda, A. Q.;Redondo, I.;Romero, L.;Soares, S.;Albajar, C.;de Troconiz, J. F.;Missiroli, M.;Moran, D.;Brun, H.;Cuevas, J.;Menendez, J. F.;Folgueras, S.;Caballero, I. G.;Cortezon, E. P. L.;Garcia, J. M. V.;Brochero Cifuentes, J. A.;Cabrillo, I. J.;Calderon, A.;Castineiras De Saa, J. R.;Campderros, J.;Fernandez, M.;Gomez, G.;Graziano, A.;Virto, A. L.;Marco, J.;Marco, R.;Rivero, C.;Matorras, F.;Sanchez, F. J. M.;Gomez, J. P.;Rodrigo, T.;Rodriguez-Marrero, A. Y.;Ruiz-Jimeno, A.;Scodellaro, L.;Vila, I.;Cortabitarte, R. V.;Abbaneo, D.;Auffray, E.;Auzinger, G.;Bachtis, M.;Baillon, P.;Ball, A. H.;Barney, D.;Benaglia, A.;Bendavid, J.;Benhabib, L.;Benitez, J. F.;Berruti, G. M.;Bianchi, G.;Bloch, P.;Bocci, A.;Bonato, A.;Botta, C.;Breuker, H.;Camporesi, T.;Cerminara, G.;Colafranceschi, S.;D'Alfonso, M.;d'Enterria, D.;Dabrowski, A.;Daponte, V.;David, A.;De Gruttola, M.;De Guio, F.;De Roeck, A.;De Visscher, S.;Di Marco, E.;Dobson, M.;Dordevic, M.;Du Pree, T.;Dupont-Sagorin, N.;Elliott-Peisert, A.;Eugster, J.;Franzoni, G.;Funk, W.;Gigi, D.;Gill, K.;Giordano, D.;Girone, M.;Glege, F.;Guida, R.;Gundacker, S.;Guthoff, M.;Hammer, J.;Hansen, M.;Harris, P.;Hegeman, J.;Innocente, V.;Janot, P.;Kirschenmann, H.;Kortelainen, M. J.;Kousouris, K.;Krajczar, K.;Lecoq, P.;Lourenco, C.;Lucchini, M. T.;Magini, N.;Malgeri, L.;Mannelli, M.;Marrouche, J.;Martelli, A.;Masetti, L.;Meijers, F.;Mersi, S.;Meschi, E.;Moortgat, F.;Morovic, S.;Mulders, M.;Nemallapudi, M. V.;Neugebauer, H.;Orfanelli, S.;Orsini, L.;Pape, L.;Perez, E.;Petrilli, A.;Petrucciani, G.;Pfeiffer, A.;Piparo, D.;Racz, A.;Rolandi, G.;Rovere, M.;Ruan, M.;Sakulin, H.;Schaefer, C.;Schwick, C.;Sharma, A.;Silva, P.;Simon, M.;Sphicas, P.;Spiga, D.;Steggemann, J.;Stieger, B.;Stoye, M.;Takahashi, Y.;Treille, D.;Tsirou, A.;Veres, G. I.;Wardle, N.;Wohri, H. K.;Zagozdzinska, A.;Zeuner, W. D.;Bertl, W.;Deiters, K.;Erdmann, W.;Horisberger, R.;Ingram, Q.;Kaestli, H. C.;Kotlinski, D.;Langenegger, U.;Rohe, T.;Bachmair, F.;Bani, L.;Bianchini, L.;Buchmann, M. A.;Casal, B.;Dissertori, G.;Dittmar, M.;Donega, M.;Dunser, M.;Eller, P.;Grab, C.;Heidegger, C.;Hits, D.;Hoss, J.;Kasieczka, G.;Lustermann, W.;Mangano, B.;Marini, A. C.;Marionneau, M.;Del Arbol, P. M. R.;Masciovecchio, M.;Meister, D.;Mohr, N.;Musella, P.;Nessi-Tedaldi, F.;Pandolfi, F.;Pata, J.;Pauss, F.;Perrozzi, L.;Peruzzi, M.;Quittnat, M.;Rossini, M.;Starodumov, A.;Takahashi, M.;Tavolaro, V. R.;Theofilatos, K.;Wallny, R.;Weber, H. A.;Aarrestad, T. K.;Amsler, C.;Canelli, M. F.;Chiochia, V.;De Cosa, A.;Galloni, C.;Hinzmann, A.;Hreus, T.;Kilminster, B.;Lange, C.;Ngadiuba, J.;Pinna, D.;Robmann, P.;Ronga, F. J.;Salerno, D.;Taroni, S.;Yang, Y.;Cardaci, M.;Chen, K. H.;Doan, T. H.;Ferro, C.;Konyushikhin, M.;Kuo, C. M.;Lin, W.;Lu, Y. J.;Volpe, R.;Yu, S. S.;Chang, P.;Chang, Y. H.;Chang, Y. W.;Chao, Y.;Chen, K. F.;Chen, P. H.;Dietz, C.;Fiori, F.;Grundler, U.;Hou, W. S.;Hsiung, Y.;Liu, Y. F.;Lu, R. S.;Moya, M. M. N.;Petrakou, E.;Tsai, J. F.;Tzeng, Y. M.;Wilken, R.;Asavapibhop, B.;Kovitanggoon, K.;Singh, G.;Srimanobhas, N.;Suwonjandee, N.;Adiguzel, A.;Cerci, S.;Dozen, C.;Girgis, S.;Gokbulut, G.;Guler, Y.;Gurpinar, E.;Hos, I.;Kangal, E. E.;Topaksu, A. K.;Onengut, G.;Ozdemir, K.;Ozturk, S.;Tali, B.;Topakli, H.;Vergili, M.;Zorbilmez, C.;Akin, I. V.;Bilin, B.;Bilmis, S.;Gamsizkan, H.;Isildak, B.;Karapinar, G.;Surat, U. E.;Yalvac, M.;Zeyrek, M.;Albayrak, E. A.;Gulmez, E.;Kaya, M.;Kaya, O.;Yetkin, T.;Cankocak, K.;Gunaydin, Y. O.;Vardarli, F.;Grynyov, B.;Levchuk, L.;Sorokin, P.;Aggleton, R.;Ball, F.;Beck, L.;Brooke, J. J.;Clement, E.;Cussans, D.;Flacher, H.;Gold-Stein, J.;Grimes, M.;Heath, G. P.;Heath, H. F.;Jacob, J.;Kreczko, L.;Lucas, C.;Meng, Z.;Newbold, D. M.;Paramesvaran, S.;Poll, A.;Sakuma, T.;El Nasr-Storey, S. S.;Senkin, S.;Smith, D.;Smith, J.;Bell, K. W.;Belyaev, A.;Brew, C.;Brown, R. M.;Cockerill, D. J. A.;Coughlan, J. A.;Harder, K.;Harper, S.;Olaiya, E.;Petyt, D.;Shepherd-Themistocleous, C. H.;Thea, A.;Tomalin, I. R.;Williams, T.;Womersley, W. J.;Worm, S. D.;Baber, M.;Bainbridge, R.;Buchmuller, O.;Bundock, A.;Burton, D.;Citron, M.;Colling, D.;Corpe, L.;Cripps, N.;Dauncey, P.;Davies, G.;De Wit, A.;Della Negra, M.;Dunne, P.;Elwood, A.;Ferguson, W.;Fulcher, J.;Futyan, D.;Hall, G.;Iles, G.;Karapostoli, G.;Kenzie, M.;Lane, R.;Lucas, R.;Lyons, L.;Magnan, A. M.;Malik, S.;Nash, J.;Nikitenko, A.;Pela, J.;Pesaresi, M.;Petridis, K.;Raymond, D. M.;Richards, A.;Rose, A.;Seez, C.;Sharp, P.;Tapper, A.;Uchida, K.;Acosta, M. V.;Virdee, T.;Zenz, C.;Cole, J. E.;Hobson, P. R.;Khan, A.;Kyberd, P.;Leggat, D.;Leslie, D.;Reid, I. D.;Symonds, P.;Teodorescu, L.;Turner, M.;Borzou, A.;Dittmann, J.;Hatakeyama, K.;Kasmi, A.;Liu, H.;Pastika, N.;Scarborough, T.;Charaf, O.;Cooper, S. I.;Henderson, C.;Rumerio, P.;Avetisyan, A.;Bose, T.;Fantasia, C.;Gastler, D.;Lawson, P.;Rankin, D.;Richardson, C.;Rohlf, J.;John, J. S.;Sulak, L.;Zou, D.;Alimena, J.;Berry, E.;Bhattacharya, S.;Cutts, D.;Demiragli, Z.;Dhingra, N.;Ferapontov, A.;Garabedian, A.;Heintz, U.;Laird, E.;Landsberg, G.;Mao, Z.;Narain, M.;Sagir, S.;Sinthuprasith, T.;Breedon, R.;Breto, G.;Sanchez, M. C. D.;Chauhan, S.;Chertok, M.;Conway, J.;Conway, R.;Cox, P. T.;Erbacher, R.;Gardner, M.;Ko, W.;Lander, R.;Mulhearn, M.;Pellett, D.;Pilot, J.;Ricci-Tam, F.;Shalhout, S.;Smith, J.;Squires, M.;Stolp, D.;Tripathi, M.;Wilbur, S.;Yohay, R.;Cousins, R.;Everaerts, P.;Farrell, C.;Hauser, J.;Ignatenko, M.;Rakness, G.;Saltzberg, D.;Takasugi, E.;Valuev, V.;Weber, M.;Burt, K.;Clare, R.;Ellison, J.;Gary, J. W.;Hanson, G.;Heilman, J.;Rikova, M. I.;Jandir, P.;Kennedy, E.;Lacroix, F.;Long, O. R.;Luthra, A.;Malberti, M.;Negrete, M. O.;Shrinivas, A.;Sumowidagdo, S.;Wei, H.;Wimpenny, S.;Branson, J. G.;Cerati, G. B.;Cittolin, S.;D'Agnolo, R. T.;Holzner, A.;Kelley, R.;Klein, D.;Letts, J.;Macneill, I.;Olivito, D.;Padhi, S.;Pieri, M.;Sani, M.;Sharma, V.;Simon, S.;Tadel, M.;Tu, Y.;Vartak, A.;Wasserbaech, S.;Welke, C.;Wurthwein, F.;Yagi | Search for neutral color-octet weak-triplet scalar particles in proton-proton collisions at root s=8TeV | search for neutral color-octet weak-triplet scalar particles in proton-proton collisions at root s=8tev | citation khachatryan sirunyan tumasyan adam asilar bergauer neutral octet triplet proton proton collisions tev. jhep neutral octet triplet theta theta decays jets boson boson decaying muons. cern luminosity proton proton collisions tev. predictions. confidence branching theta mass. confidence bounds theta octo triplet scenarios. bounds octo triplet model.additional hormann hrubec jeitler knunz konig krammer kratschmer liko matsushita mikulec rabady rahbaran rohringer schieck schofbeck strauss treberer treberspurg waltenberger wulz mossolov shumeiko gonzalez alderweireldt cornelis wolf janssen knutsson lauwers luyckx ochesanu rougny klundert haevermaet mechelen remortel spilbeeck zeid blekman hondt daci bruyn deroover heracleous keaveney lowette moreels olbrechts python strom tavernier doninck mulders onsem parijs barria caillol clerbaux lentdecker delannoy dobur fasanella favart grebenyuk leonard mohammadi pernie randleconde reis seva thomas vander velde vanlaer zenoni beernaert benucci cimmino crucy fagot garcia mccartin rios poyraz ryckbosch diblen sigamani strobbe tytgat driessche yazgan zaganidis basegmez beluffi bondu bruno castello caudron ceard silveira delaere favart forthomme giammanco hollar jafari komm lemaitre mertens nuttens perrini piotrzkowski popov quertenmont selvaggi marono beliy caebergs hammad alda alves brito martins martins hensel herrera moraes teles chagas carvalho chinellato custodio costa damiao martins souza guativa malbouisson figueiredo mundim nogima silva santoro sznajder manganote pereira ahuja bernardes santos dogra tomei trfp gregores mercadante moon novaes padula abad vargas aleksandrov genchev hadjiiska iaydjiev marinov piperov rodozov stoykova sultanov vutova dimitrov glushkov litov pavlov petkov ahmad bian cheng jiang plestina romeo shaheen asawatangtrakuldee qian avila cabrera sierra florez gomez moreno sanabria godinovic lelas polic puljak antunovic kovac brigljevic kadija luetic sudic attikis mavromanolakis mousa nicolaou ptochos razis rykaczewski bodlak finger finger elgammal kamel lotfy mahmoud masod radi calpas kadastik murumaa raidal tiko veelken eerola voutilainen harkonen karimaki kinnunen lampen lassila perini lehti linden luukka maenpaa pekkanen peltola tuominen tuominiemi tuovinen wendland talvitie tuuva besancon couderc dejardin denegri fabbro faure favaro ferri ganjour givernaud gras monchenault jarry locci machet malcles rander rosowsky titov zghiche baffioni beaudette busson cadamuro chapon charlot dahms davignon filipovic florent cassagnac lisniak mastrolorenzo mine naranjo nguyen 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mozer muller muller plagge quast rabbertz rocker roscher simonis stober ulrich wagner kuhr wayand weiler wohrmann wolf anagnostou daskalakis geralis giakoumopoulou kyriakis loukas markou psallidas topsis giotis agapitos kesisoglou panagiotou saoulidou tziaferi evangelou flouris foudas kokkas loukas manthos papadopoulos paradas strologas bencze hajdu hazi hidas horvath sikler veszpremi vesztergombi zsigmond beni czellar karancsi molnar szillasi bartok makovec raics trocsanyi ujvari mandal sahoo swain beri bhatnagar chawla gupta bhawandeep kalsi kaur kaur kumar mehta mittal nishu singh walia kumar kumar bhardwaj choudhary garg kumar malhotra naimuddin ranjan sharma sharma banerjee bhattacharya chatterjee dutta jain jain khurana majumdar modak mondal mukherjee mukhopadhyay chowdhury sarkar sharan abdulsalam chudasama dutta kumar mohanty pant shukla topkar aziz banerjee bhowmik chatterjee dewanjee dugad ganguly ghosh guchait gurtu kole kumar mahakud maity majumder mazumdar mitra mohanty 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flacher gold stein grimes heath heath jacob kreczko lucas meng newbold paramesvaran poll sakuma nasr storey senkin bell belyaev brew brown cockerill coughlan harder harper olaiya petyt shepherd themistocleous thea tomalin williams womersley worm baber bainbridge buchmuller bundock burton citron colling corpe cripps dauncey davies della negra dunne elwood ferguson fulcher futyan hall iles karapostoli kenzie lane lucas lyons magnan malik nash nikitenko pela pesaresi petridis raymond richards rose seez sharp tapper uchida acosta virdee zenz cole hobson khan kyberd leggat leslie reid symonds teodorescu turner borzou dittmann hatakeyama kasmi pastika scarborough charaf cooper henderson rumerio avetisyan bose fantasia gastler lawson rankin richardson rohlf john sulak alimena berry bhattacharya cutts demiragli dhingra ferapontov garabedian heintz laird landsberg narain sagir sinthuprasith breedon breto sanchez chauhan chertok conway conway erbacher gardner lander mulhearn pellett pilot ricci shalhout squires stolp tripathi wilbur yohay cousins everaerts farrell hauser ignatenko rakness saltzberg takasugi valuev weber burt clare ellison gary hanson heilman rikova jandir kennedy lacroix luthra malberti negrete shrinivas sumowidagdo wimpenny branson cerati cittolin agnolo holzner kelley klein letts macneill olivito padhi pieri sani sharma simon tadel vartak wasserbaech welke wurthwein yagi | non_dup | [] |
76177455 | 10.1007/jhep09(2016)173 | Searches for new heavy resonances decaying to WW, WZ, and ZZ bosons are presented, using a data sample corresponding to 3.2 fb−1 of pp collisions at s√=13 TeV collected with the ATLAS detector at the CERN Large Hadron Collider. Analyses selecting ννqq, ℓνqq, ℓℓqq and qqqq final states are combined, searching for an arrow-width resonance with mass between 500 and 3000 GeV. The discriminating variable is either an invariant mass or a transverse mass. No significant deviations from the Standard Model predictions are observed. Three benchmark models are tested: a model predicting the existence of a new heavy scalar singlet, a simplified model predicting a heavy vector-boson triplet, and a bulk Randall-Sundrum model with a heavy spin-2 graviton. Cross-section limits are set at the 95% confidence level and are compared to theoretical cross-section predictions for a variety of models. The data exclude a scalar singlet with mass below 2650 GeV, a heavy vector-boson triplet with mass below 2600 GeV, and a graviton with mass below 1100 GeV. These results significantly extend the previous limits set using pp collisions at s√=8 TeV.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF and DNSRC, Denmark; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, HGF, and MPG, Germany; GSRT, Greece; RGC, Hong Kong SAR, China; ISF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; RCN, Norway; MNiSW and NCN, Poland; FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MESTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SERI, SNSF and Cantons of Bern and Geneva, Switzerland; MOST, Taiwan; TAEK, Turkey; STFC, United Kingdom; DOE and NSF, United States of America. In addition, individual groups and members have received support from BCKDF, the Canada Council, CANARIE, CRC, Compute Canada, FQRNT, and the Ontario Innovation Trust, Canada; EPLANET, ERC, FP7, Horizon 2020 and Marie Sklodowska-Curie Actions, European Union; Investissements d'Avenir Labex and Idex, ANR, Region Auvergne and Fondation Partager le Savoir, France; DFG and AvH Foundation, Germany; Herakleitos, Thales and Aristeia programmes co-financed by EU-ESF and the Greek NSRF; BSF, GIF and Minerva, Israel; BRF, Norway; Generalitat de Catalunya, Generalitat Valenciana, Spain; the Royal Society and Leverhulme Trust, United Kingdom | Searches for heavy diboson resonances in pp collisions at root S=13 TeV with the ATLAS detector | searches for heavy diboson resonances in pp collisions at root s=13 tev with the atlas detector | searches resonances decaying bosons collisions atlas cern hadron collider. selecting ννqq ℓνqq ℓℓqq qqqq searching arrow gev. discriminating mass. deviations observed. benchmark predicting singlet simplified predicting boson triplet randall sundrum graviton. confidence models. exclude singlet boson triplet graviton gev. extend collisions tev.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc denmark cnrs irfu gnsf georgia bmbf gsrt greece hong kong benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland portugal romania russia russian federation jinr mestd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden seri snsf cantons bern geneva switzerland taiwan taek turkey stfc kingdom america. bckdf canada council canarie canada fqrnt ontario innovation trust canada eplanet horizon marie sklodowska curie union investissements avenir labex idex auvergne fondation partager savoir foundation herakleitos thales aristeia programmes financed greek nsrf minerva israel norway generalitat catalunya generalitat valenciana spain royal leverhulme trust kingdom | non_dup | [] |
76177458 | 10.1007/jhep09(2016)175 | A selection of searches by the ATLAS experiment at the LHC for the electroweak production of SUSY particles are used to study their impact on the constraints on dark matter candidates. The searches use 20 fb−1 of proton-proton collision data at s√=8 TeV. A likelihood-driven scan of a five-dimensional effective model focusing on the gaugino-higgsino and Higgs sector of the phenomenological minimal supersymmetric Standard Model is performed. This scan uses data from direct dark matter detection experiments, the relic dark matter density and precision flavour physics results. Further constraints from the ATLAS Higgs mass measurement and SUSY searches at LEP are also applied. A subset of models selected from this scan are used to assess the impact of the selected ATLAS searches in this five-dimensional parameter space. These ATLAS searches substantially impact those models for which the mass m(χ~01) of the lightest neutralino is less than 65 GeV, excluding 86% of such models. The searches have limited impact on models with larger m(χ~01) due to either heavy electroweakinos or compressed mass spectra where the mass splittings between the produced particles and the lightest supersymmetric particle is small.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF and DNSRC, Denmark; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, HGF, and MPG, Germany; GSRT, Greece; RGC, Hong Kong SAR, China; ISF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; RCN, Norway; MNiSW and NCN, Poland; FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MESTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SERI, SNSF and Cantons of Bern and Geneva, Switzerland; MOST, Taiwan; TAEK, Turkey; STFC, United Kingdom; DOE and NSF, United States of America. In addition, individual groups and members have received support from BCKDF, the Canada Council, CANARIE, CRC, Compute Canada, FQRNT, and the Ontario Innovation Trust, Canada; EPLANET, ERC, FP7, Horizon 2020 and Marie Sklodowska-Curie Actions, European Union; Investissements d'Avenir Labex and Idex, ANR, Region Auvergne and Fondation Partager le Savoir, France; DFG and AvH Foundation, Germany; Herakleitos, Thales and Aristeia programmes co-financed by EU-ESF and the Greek NSRF; BSF, GIF and Minerva, Israel; BRF, Norway; Generalitat de Catalunya, Generalitat Valenciana, Spain; the Royal Society and Leverhulme Trust, United Kingdom | Dark matter interpretations of ATLAS searches for the electroweak production of supersymmetric particles in √s=8 TeV proton-proton collisions | dark matter interpretations of atlas searches for the electroweak production of supersymmetric particles in √s=8 tev proton-proton collisions | searches atlas electroweak susy candidates. searches proton proton collision tev. likelihood scan focusing gaugino higgsino phenomenological supersymmetric performed. scan relic precision flavour results. atlas susy searches applied. scan atlas searches space. atlas searches substantially lightest neutralino excluding models. searches electroweakinos compressed splittings lightest supersymmetric small.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc denmark cnrs irfu gnsf georgia bmbf gsrt greece hong kong benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland portugal romania russia russian federation jinr mestd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden seri snsf cantons bern geneva switzerland taiwan taek turkey stfc kingdom america. bckdf canada council canarie canada fqrnt ontario innovation trust canada eplanet horizon marie sklodowska curie union investissements avenir labex idex auvergne fondation partager savoir foundation herakleitos thales aristeia programmes financed greek nsrf minerva israel norway generalitat catalunya generalitat valenciana spain royal leverhulme trust kingdom | non_dup | [] |
143977428 | 10.1007/jhep09(2017)020 | Inclusive jet production cross-sections are measured in proton-proton collisions at a centre-of-mass energy of s√=8 TeV recorded by the ATLAS experiment at the Large Hadron Collider at CERN. The total integrated luminosity of the analysed data set amounts to 20.2 fb−1. Double-differential cross-sections are measured for jets defined by the anti-kt jet clustering algorithm with radius parameters of R = 0.4 and R = 0.6 and are presented as a function of the jet transverse momentum, in the range between 70 GeV and 2.5 TeV and in six bins of the absolute jet rapidity, between 0 and 3.0. The measured cross-sections are compared to predictions of quantum chromodynamics, calculated at next-to-leading order in perturbation theory, and corrected for non-perturbative and electroweak effects. The level of agreement with predictions, using a selection of different parton distribution functions for the proton, is quantified. Tensions between the data and the theory predictions are observed.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF and DNSRC, Denmark; IN2P3-CNRS, CEA-DSM/IRFU, France; SRNSF, Georgia; BMBF, HGF, and MPG, Germany; GSRT, Greece; RGC, Hong Kong SAR, China; ISF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; NWO, Netherlands; RCN, Norway; MNiSW and NCN, Poland; FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MESTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SERI, SNSF and Cantons of Bern and Geneva, Switzerland; MOST, Taiwan; TAEK, Turkey; STFC, United Kingdom; DOE and NSF, United States of America. In addition, individual groups and members have received support from BCKDF, the Canada Council, CANARIE, CRC, Compute Canada, FQRNT, and the Ontario Innovation Trust, Canada; EPLANET, ERC, ERDF, FP7, Horizon 2020 and Marie Sklodowska-Curie Actions, European Union; Investissements d'Avenir Labex and Idex, ANR, Region Auvergne and Fondation Partager le Savoir, France; DFG and AvH Foundation, Germany; Herakleitos, Thales and Aristeia programmes co-financed by EU-ESF and the Greek NSRF; BSF, GIF and Minerva, Israel; BRF, Norway; CERCA Programme Generalitat de Catalunya, Generalitat Valenciana, Spain; the Royal Society and Leverhulme Trust, United Kingdom.info:eu-repo/semantics/publishedVersio | Measurement of the inclusive jet cross-sections in proton-proton collisions at s√=8 TeV with the ATLAS detector | measurement of the inclusive jet cross-sections in proton-proton collisions at s√=8 tev with the atlas detector | inclusive proton proton collisions atlas hadron collider cern. luminosity analysed amounts jets clustering bins rapidity chromodynamics perturbation corrected perturbative electroweak effects. parton proton quantified. tensions observed.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc denmark cnrs irfu srnsf georgia bmbf gsrt greece hong kong benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland portugal romania russia russian federation jinr mestd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden seri snsf cantons bern geneva switzerland taiwan taek turkey stfc kingdom america. bckdf canada council canarie canada fqrnt ontario innovation trust canada eplanet erdf horizon marie sklodowska curie union investissements avenir labex idex auvergne fondation partager savoir foundation herakleitos thales aristeia programmes financed greek nsrf minerva israel norway cerca programme generalitat catalunya generalitat valenciana spain royal leverhulme trust kingdom.info repo semantics publishedversio | non_dup | [] |
143977418 | 10.1007/jhep09(2017)084 | A search for strongly produced supersymmetric particles using signatures involving multiple energetic jets and either two isolated same-sign leptons (e or μ), or at least three isolated leptons, is presented. The analysis relies on the identification of b-jets and high missing transverse momentum to achieve good sensitivity. A data sample of proton-proton collisions at s√=13 TeV recorded with the ATLAS detector at the Large Hadron Collider in 2015 and 2016, corresponding to a total integrated luminosity of 36.1 fb−1, is used for the search. No significant excess over the Standard Model prediction is observed. The results are interpreted in several simplified supersymmetric models featuring R-parity conservation or R-parity violation, extending the exclusion limits from previous searches. In models considering gluino pair production, gluino masses are excluded up to 1.87 TeV at 95% confidence level. When bottom squarks are pair-produced and decay to a chargino and a top quark, models with bottom squark masses below 700 GeV and light neutralinos are excluded at 95% confidence level. In addition, model-independent limits are set on a possible contribution of new phenomena to the signal region yields.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF and DNSRC, Denmark; IN2P3-CNRS, CEA-DSM/IRFU, France; SRNSF, Georgia; BMBF, HGF, and MPG, Germany; GSRT, Greece; RGC, Hong Kong SAR, China; ISF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; NWO, Netherlands; RCN, Norway; MNiSW and NON, Poland; FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MESTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SERI, SNSF and Cantons of Bern and Geneva, Switzerland; MOST, Taiwan; TAEK, Turkey; STFC, United Kingdom; DOE and NSF, United States of America. In addition, individual groups and members have received support from BCKDF, the Canada Council, CANARIE, CRC, Compute Canada, FQRNT, and the Ontario Innovation Trust, Canada; EPLANET, ERC, ERDF, FP7, Horizon 2020 and Marie Sklodowska-Curie Actions, European Union; Investissements d'Avenir Labex and Idex, ANR, Region Auvergne and Fondation Partager le Savoir, France; DFG and AvH Foundation, Germany; Herakleitos, Thales and Aristeia programmes co-financed by EU-ESF and the Greek NSRF; BSF, GIF and Minerva, Israel; BRF, Norway; CERCA Programme Generalitat de Catalunya, Generalitat Valenciana, Spain; the Royal Society and Leverhulme Trust, United Kingdom.info:eu-repo/semantics/publishedVersio | Search for supersymmetry in final states with two same-sign or three leptons and jets using 36 fb−1 of √s=13 TeV pp collision data with the ATLAS detector | search for supersymmetry in final states with two same-sign or three leptons and jets using 36 fb−1 of √s=13 tev pp collision data with the atlas detector | supersymmetric signatures involving energetic jets leptons leptons presented. relies jets missing sensitivity. proton proton collisions atlas hadron collider luminosity search. excess observed. interpreted simplified supersymmetric featuring parity conservation parity violation extending exclusion searches. gluino gluino excluded confidence level. squarks chargino squark neutralinos excluded confidence level. phenomena yields.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc denmark cnrs irfu srnsf georgia bmbf gsrt greece hong kong benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland portugal romania russia russian federation jinr mestd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden seri snsf cantons bern geneva switzerland taiwan taek turkey stfc kingdom america. bckdf canada council canarie canada fqrnt ontario innovation trust canada eplanet erdf horizon marie sklodowska curie union investissements avenir labex idex auvergne fondation partager savoir foundation herakleitos thales aristeia programmes financed greek nsrf minerva israel norway cerca programme generalitat catalunya generalitat valenciana spain royal leverhulme trust kingdom.info repo semantics publishedversio | non_dup | [] |
143977416 | 10.1007/jhep09(2017)088 | A search for new phenomena in final states characterized by high jet multiplicity, an isolated lepton (electron or muon) and either zero or at least three b-tagged jets is presented. The search uses 36.1 fb−1 of s√=13 TeV proton-proton collision data collected by the ATLAS experiment at the Large Hadron Collider in 2015 and 2016. The dominant sources of background are estimated using parameterized extrapolations, based on observables at medium jet multiplicity, to predict the b-tagged jet multiplicity distribution at the higher jet multiplicities used in the search. No significant excess over the Standard Model expectation is observed and 95% confidence-level limits are extracted constraining four simplified models of R-parity-violating supersymmetry that feature either gluino or top-squark pair production. The exclusion limits reach as high as 2.1 TeV in gluino mass and 1.2 TeV in top-squark mass in the models considered. In addition, an upper limit is set on the cross-section for Standard Model tt¯tt¯ production of 60 fb (6.5 × the Standard Model prediction) at 95% confidence level. Finally, model-independent limits are set on the contribution from new phenomena to the signal-region yields.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF and DNSRC, Denmark; IN2P3-CNRS, CEA-DSM/IRFU, France; SRNSF, Georgia; BMBF, HGF, and MPG, Germany; GSRT, Greece; RGC, Hong Kong SAR, China; ISF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; NWO, Netherlands; RCN, Norway; MNiSW and NCN, Poland; FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MESTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SERI, SNSF and Cantons of Bern and Geneva, Switzerland; MOST, Taiwan; TAEK, Turkey; STFC, United Kingdom; DOE and NSF, United States of America. In addition, individual groups and members have received support from BCKDF, the Canada Council, CANARIE, CRC, Compute Canada, FQRNT, and the Ontario Innovation Trust, Canada; EPLANET, ERC, ERDF, FP7, Horizon 2020 and Marie Sk lodowska-Curie Actions, European Union; Investissements d'Avenir Labex and Idex, ANR, Region Auvergne and Fondation Partager le Savoir, France; DFG and AvH Foundation, Germany; Herakleitos, Thales and Aristeia programmes co-financed by EU-ESF and the Greek NSRF; BSF, GIF and Minerva, Israel; BRF, Norway; CERCA Programme Generalitat de Catalunya, Generalitat Valenciana, Spain; the Royal Society and Leverhulme Trust, United Kingdom.info:eu-repo/semantics/publishedVersio | Search for new phenomena in a lepton plus high jet multiplicity final state the ATLAS experiment using root S=13 TeV proton-proton collision data | search for new phenomena in a lepton plus high jet multiplicity final state the atlas experiment using root s=13 tev proton-proton collision data | phenomena multiplicity lepton muon tagged jets presented. proton proton collision atlas hadron collider parameterized extrapolations observables multiplicity predict tagged multiplicity multiplicities search. excess expectation confidence constraining simplified parity violating supersymmetry gluino squark production. exclusion gluino squark considered. tt¯tt¯ confidence level. phenomena yields.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc denmark cnrs irfu srnsf georgia bmbf gsrt greece hong kong benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland portugal romania russia russian federation jinr mestd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden seri snsf cantons bern geneva switzerland taiwan taek turkey stfc kingdom america. bckdf canada council canarie canada fqrnt ontario innovation trust canada eplanet erdf horizon marie lodowska curie union investissements avenir labex idex auvergne fondation partager savoir foundation herakleitos thales aristeia programmes financed greek nsrf minerva israel norway cerca programme generalitat catalunya generalitat valenciana spain royal leverhulme trust kingdom.info repo semantics publishedversio | non_dup | [] |
2727840 | 10.1007/jhep10(2010)032 | Here we consider the tree level corrections to electroweak (EW) observables from standard model (SM) particles propagating in generic warped extra dimensions. The scale of these corrections is found to be dominated by three parameters, the Kaluza-Klein (KK) mass scale, the relative coupling of the KK gauge fields to the Higgs and the relative coupling of the KK gauge fields to fermion zero modes. It is found that 5D spaces that resolve the hierarchy problem through warping typically have large gauge-Higgs coupling. It is also found in D> 5 where the additional dimensions are warped the relative gauge-Higgs coupling scales as a function of the warp factor. If the warp factor of the additional spaces is contracting towards the IR brane, both the relative gauge-Higgs coupling and resulting EW corrections will be large. Conversely EW constraints could be reduced by finding a space where the additional dimension¿s warp factor is increasing towards the IR brane. We demonstrate that the Klebanov Strassler solution belongs to the former of these possibilities | Electroweak Constraints on Warped Geometry in Five Dimensions and Beyond. | electroweak constraints on warped geometry in five dimensions and beyond. | electroweak observables propagating generic warped extra dimensions. dominated kaluza klein fermion modes. resolve hierarchy warping coupling. warped warp factor. warp contracting brane large. conversely dimension¿s warp brane. klebanov strassler belongs former possibilities | non_dup | [] |
4434392 | 10.1007/jhep10(2010)103 | Supersymmetry and R-symmetry Ward identities relate on-shell amplitudes in a supersymmetric field theory. We solve these Ward identities for N [superscript K] MHV amplitudes of the maximally supersymmetric =4 and =8 theories. The resulting superamplitude is written in a new, manifestly supersymmetric and [subscript R]-invariant form: it is expressed as a sum of very simple SUSY and SUR -invariant Grassmann polynomials, each multiplied by a “basis amplitude”. For N [superscript K] MHV n-point superamplitudes the number of basis amplitudes is equal to the dimension of the irreducible representation of SU(n − 4) corresponding to the rectangular Young diagram with columns and K rows. The linearly independent amplitudes in this algebraic basis may still be functionally related by permutation of momenta. We show how cyclic and reflection symmetries can be used to obtain a smaller functional basis of color-ordered single-trace amplitudes in =4 gauge theory. We also analyze the more significant reduction that occurs in =8 supergravity because gravity amplitudes are not ordered. All results are valid at both tree and loop level | Solution to the Ward identities for superamplitudes | solution to the ward identities for superamplitudes | supersymmetry ward identities relate amplitudes supersymmetric theory. solve ward identities superscript amplitudes maximally supersymmetric theories. superamplitude manifestly supersymmetric subscript susy grassmann polynomials multiplied “basis amplitude”. superscript superamplitudes amplitudes irreducible rectangular columns rows. linearly amplitudes algebraic functionally permutation momenta. cyclic reflection symmetries ordered trace amplitudes theory. analyze supergravity amplitudes ordered. valid | non_dup | [] |
76981292 | 10.1007/jhep10(2011)061 | We present a systematic search for Type IIB supergravity solutions whose spacetimes include AdS 5 and S 2 factors, which would be candidate duals to N=2 four-dimensional Superconformal field theories. The candidate solutions encode the SU(2) R-symmetry geometrically on the S 2 and an additional Killing vector generates the U(1) R-symmetry. By analysing the Killing spinor equations we show that no such solutions exist. This suggests that if Type IIB backgrounds dual to N=2 SCFTs exist, the SU(2) R-symmetry is realised non-geometrically. Finally, we also show that, in the context of both N=1 and N=2 Type IIB backgrounds with an AdS 5 factor, the only candidate U(1) R-symmetry Killing vector directions are the ones that appear for generic values of the Killing spinors; no further Killing vectors exist for special values of the Killing spinors | A search for AdS(5) X S-2 IIB supergravity solutions dual to N=2 SCFTs | a search for ads(5) x s-2 iib supergravity solutions dual to n=2 scfts | supergravity spacetimes candidate duals superconformal theories. candidate encode geometrically killing generates symmetry. analysing killing spinor exist. backgrounds scfts realised geometrically. backgrounds candidate killing directions generic killing spinors killing killing spinors | non_dup | [] |
78053900 | 10.1007/jhep10(2012)105 | We explore some aspects of 4D supergravity theories and F-theory vacua that are parallel to structures in the space of 6D theories. The spectrum and topological terms in 4D supergravity theories correspond to topological data of F-theory geometry, just as in six dimensions. In particular, topological axion-curvature squared couplings appear in 4D theories; these couplings are characterized by vectors in the dual to the lattice of axion shift symmetries associated with string charges. These terms are analogous to the Green-Schwarz terms of 6D supergravity theories, though in 4D the terms are not generally linked with anomalies. We outline the correspondence between F-theory topology and data of the corresponding 4D supergravity theories. The correspondence of geometry with structure in the low-energy action illuminates topological aspects of heterotic-F-theory duality in 4D as well as in 6D. The existence of an F-theory realization also places geometrical constraints on the 4D supergravity theory in the large-volume limit.United States. Dept. of Energy (Contract DE-FC02-94ER40818 | Structure in 6D and 4D N = 1 supergravity theories from F-theory | structure in 6d and 4d n = 1 supergravity theories from f-theory | explore supergravity vacua theories. topological supergravity topological dimensions. topological axion curvature squared couplings couplings axion symmetries charges. analogous schwarz supergravity anomalies. outline correspondence topology supergravity theories. correspondence illuminates topological heterotic duality realization places geometrical supergravity limit.united states. dept. contract | non_dup | [] |
83234265 | 10.1007/jhep10(2013)005 | The results of a search for the rare two-body charmless baryonic decays B[superscript 0]→p[line over p] and B[superscript 0][subscript s] →p[line over p] are reported. The analysis uses a data sample, corresponding to an integrated luminosity of 0.9 fb[superscript −1], of pp collision data collected by the LHCb experiment at a centre-of-mass energy of 7 TeV. An excess of B[superscript 0]→p[line over p] candidates with respect to background expectations is seen with a statistical significance of 3.3 standard deviations. This is the first evidence for a two-body charmless baryonic B[superscript 0] decay. No significant B[superscript 0][subscript s] → p[line over p] signal is observed, leading to an improvement of three orders of magnitude over previous bounds. If the excess events are interpreted as signal, the 68.3% confidence level intervals on the branching fractions are
B(B[superscript 0] →p[line over p])=1.47[superscript
+0.62+0.35][subscript −0.51−0.14] × 10[superscript −8],
B(B[superscript 0]→p[line over p])=1.47[subscript −0.51−0.14][superscript +0.62+0.35] × 10[superscript −8], where the first uncertainty is statistical and the second is systematic.National Science Foundation (U.S. | First evidence for the two-body charmless baryonic decay B0→ pp | first evidence for the two-body charmless baryonic decay b0→ pp | rare charmless baryonic decays superscript superscript subscript reported. luminosity superscript collision lhcb tev. excess superscript candidates expectations deviations. charmless baryonic superscript decay. superscript subscript orders bounds. excess interpreted confidence intervals branching fractions superscript superscript subscript superscript superscript subscript superscript superscript systematic.national foundation u.s. | non_dup | [] |
78053881 | 10.1007/jhep10(2013)013 | We compute and study the drag force acting on a heavy quark propagating through the matter produced in the collision of two sheets of energy in a strongly coupled gauge theory that can be analyzed holographically. Although this matter is initially far from equilibrium, we find that the equilibrium expression for heavy quark energy loss in a homogeneous strongly coupled plasma with the same instantaneous energy density or pressure as that at the location of the quark describes many qualitative features of our results. One interesting exception is that there is a time delay after the initial collision before the heavy quark energy loss becomes significant. At later times, once a liquid plasma described by viscous hydrodynamics has formed, expressions based upon assuming instantaneous homogeneity and equilibrium provide a semi-quantitative description of our results — as long as the rapidity of the heavy quark is not too large. For a heavy quark with large rapidity, the gradients in the velocity of the hydrodynamic fluid result in qualitative consequences for the ‘drag’ force acting on the quark. In certain circumstances, the force required to drag the quark through the plasma can point opposite to the velocity of the quark, meaning that the force that the plasma exerts on a quark moving through it acts in the same direction as its velocity. And, generically, the force includes a component perpendicular to the direction of motion of the quark. Our results support a straightforward approach to modeling the drag on, and energy loss of, heavy quarks with modest rapidity in heavy ion collisions, both before and after the quark-gluon plasma hydrodynamizes, and provide cautionary lessons at higher rapidity.United States. Dept. of Energy (Cooperative Research Agreement DE-FG0205ER41360 | Heavy quark energy loss far from equilibrium in a strongly coupled collision | heavy quark energy loss far from equilibrium in a strongly coupled collision | drag acting propagating collision sheets holographically. initially homogeneous instantaneous describes qualitative results. exception delay collision significant. viscous hydrodynamics expressions instantaneous homogeneity rapidity large. rapidity gradients hydrodynamic qualitative consequences ‘drag’ acting quark. circumstances drag opposite meaning exerts moving acts velocity. generically perpendicular quark. straightforward drag quarks modest rapidity collisions gluon hydrodynamizes cautionary lessons rapidity.united states. dept. cooperative | non_dup | [] |
20327850 | 10.1007/jhep10(2013)029 | The nature of the electroweak phase transition in two-Higgs-doublet models is revisited in light of the recent LHC results. A scan over an extensive region of their parameter space is performed, showing that a strongly first-order phase transition favours a light neutral scalar with SM-like properties, together with a heavy pseudo-scalar (m_A^0 > 400 GeV) and a mass hierarchy in the scalar sector, m_H^+ < m_H^0 < m_A^0. We also investigate the h^0 -> gamma gamma decay channel and find that an enhancement in the branching ratio is allowed, and in some cases even preferred, when a strongly first-order phase transition is required | A strong electroweak phase transition in the 2HDM after LHC8 | a strong electroweak phase transition in the 2hdm after lhc8 | electroweak doublet revisited results. scan extensive favours neutral pseudo hierarchy gamma gamma enhancement branching preferred | non_dup | [] |
83234257 | 10.1007/jhep10(2013)115 | Prompt production of charmonium χ[subscript c0], χ[subscript c1] and χ[subscript c2] mesons is studied using proton-proton collisions at the LHC at a centre-of-mass energy of √s = 7 TeV. The χ[subscript c] mesons are identified through their decay to J/ψγ, with J/ψ → μ[superscript +]μ[superscript −] using photons that converted in the detector. A data sample, corresponding to an integrated luminosity of 1.0 fb[superscript −1] collected by the LHCb detector, is used to measure the relative prompt production rate of χ[subscript c1] and χ[subscript c2] in the rapidity range 2.0 < y < 4.5 as a function of the J/ψ transverse momentum from 3 to 20 GeV/c. First evidence for χ[subscript c0] meson production at a high-energy hadron collider is also presented.National Science Foundation (U.S. | Measurement of the relative rate of prompt χc0, χc1 and χc2 production at √s=7 TeV | measurement of the relative rate of prompt χc0, χc1 and χc2 production at √s=7 tev | prompt charmonium subscript subscript subscript mesons proton proton collisions tev. subscript mesons superscript superscript photons converted detector. luminosity superscript lhcb prompt subscript subscript rapidity subscript meson hadron collider presented.national foundation u.s. | non_dup | [] |
28948623 | 10.1007/jhep10(2013)124 | Indirect detection constraints on gamma rays (both continuum and lines) have set strong constraints on wino dark matter. By combining results from Fermi-LAT and HESS, we show that: dark matter made entirely of light nonthermal winos is strongly excluded; dark matter consisting entirely of thermal winos is allowed only if the Milky Way dark matter distribution has a significant (≳ 0.4 kpc) core; and for plausible NFW and Einasto distributions the possibility that winos are all the dark matter can be excluded over the entire range of wino masses from 100 GeV up to 3 TeV. The case of light, nonthermal wino dark matter is particularly interesting in scenarios with decaying moduli that reheat the universe to a low temperature. Typically such models have been discussed for low reheating temperatures, not far above the BBN bound of a few MeV. We show that constraints on the allowed wino relic density push such models to higher reheating temperatures and hence heavier moduli. Even for a flattened halo model consisting of an NFW profile with constant-density core inside 1 kpc and a density near the sun of 0.3 GeV/cm3, for 150 GeV winos current data constrains the reheat temperature to be above 1.4 GeV. As a result, for models in which the wino mass is a loop factor below m 3/2, the data favor moduli that are more than an order of magnitude heavier than m 3/2. We discuss some of the sobering implications of this result for the status of supersymmetry. We also comment on other neutralino dark matter scenarios, in particular the case of mixed bino/higgsino dark matter. We show that in this case, direct and indirect searches are complementary to each other and could potentially cover most of the parameter space.Physic | In wino veritas? Indirect searches shed light on neutralino dark matter | in wino veritas? indirect searches shed light on neutralino dark matter | indirect gamma rays continuum wino matter. combining fermi hess entirely nonthermal winos excluded consisting entirely winos milky plausible einasto winos excluded wino tev. nonthermal wino scenarios decaying moduli reheat universe temperature. reheating mev. wino relic push reheating heavier moduli. flattened halo consisting winos constrains reheat gev. wino favor moduli heavier sobering supersymmetry. comment neutralino scenarios bino higgsino matter. indirect searches complementary potentially cover space.physic | non_dup | [] |
55632622 | 10.1007/jhep10(2013)130 | A search is presented for new particles decaying to large numbers (7 or more) of
jets, with missing transverse momentum and no isolated electrons or muons. This analysis
uses 20.3 fb−1 of pp collision data at √
s = 8 TeV collected by the ATLAS experiment at
the Large Hadron Collider. The sensitivity of the search is enhanced by considering the
number of b-tagged jets and the scalar sum of masses of large-radius jets in an event. No
evidence is found for physics beyond the Standard Model. The results are interpreted in
the context of various simplified supersymmetry-inspired models where gluinos are pair
produced, as well as an mSUGRA/CMSSM model.We thank CERN for the very successful operation of the LHC, as well as the support staff from our institutions without whom ATLAS could not be operated efficiently | Search for new phenomena in final states with large jet multiplicities and missing transverse momentum at s√=8 TeV proton-proton collisions using the ATLAS experiment | search for new phenomena in final states with large jet multiplicities and missing transverse momentum at s√=8 tev proton-proton collisions using the atlas experiment | decaying jets missing muons. collision atlas hadron collider. tagged jets jets event. model. interpreted simplified supersymmetry inspired gluinos msugra cmssm model.we cern successful staff institutions atlas operated efficiently | non_dup | [] |
83234261 | 10.1007/jhep10(2013)183 | Direct and mixing-induced CP-violating asymmetries in B[superscript 0][subscript s] → K[superscript +]K[superscript −] decays are measured for the first time using a data sample of pp collisions, corresponding to an
integrated luminosity of 1.0 fb[superscript −1], collected with the LHCb detector at a centre-of-mass energy of 7 TeV. The results are C[subscript KK] = 0.14 ± 0.11 ± 0.03 and S[subscript KK] = 0.30 ± 0.12 ± 0.04,
where the first uncertainties are statistical and the second systematic. The corresponding quantities are also determined for B[superscript 0] → π[superscript +]π[superscript −] decays to be C[subscript ππ] = −0.38±0.15±0.02 and S[subscript ππ] = −0.71 ± 0.13 ± 0.02, in good agreement with existing measurements.National Science Foundation (U.S. | First measurement of time-dependent CP violation in B0s→K+K decays | first measurement of time-dependent cp violation in b0s→k+k decays | violating asymmetries superscript subscript superscript superscript decays collisions luminosity superscript lhcb tev. subscript subscript systematic. quantities superscript superscript superscript decays subscript subscript measurements.national foundation u.s. | non_dup | [] |
55632620 | 10.1007/jhep10(2013)189 | The results of a search for pair production of supersymmetric partners of the
Standard Model third-generation quarks are reported. This search uses 20.1 fb−1
of pp
collisions at √
s = 8 TeV collected by the ATLAS experiment at the Large Hadron Collider.
The lightest bottom and top squarks (˜b1
and t˜
1
respectively) are searched for in a final
state with large missing transverse momentum and two jets identified as originating from
b-quarks. No excess of events above the expected level of Standard Model background is
found. The results are used to set upper limits on the visible cross section for processes
beyond the Standard Model. Exclusion limits at the 95% confidence level on the masses
of the third-generation squarks are derived in phenomenological supersymmetric R-parityconserving
models in which either the bottom or the top squark is the lightest squark. The
˜b1
is assumed to decay via ˜b1 → bχ˜
0
1
and the t˜
1
via t˜
1 → bχ˜
±
1
, with undetectable products
of the subsequent decay of the ˜χ
±
1
due to the small mass splitting between the ˜χ
±
1
and
the ˜χ
0
1
.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWF and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF, DNSRC and Lundbeck Foundation, Denmark; EPLANET, ERC and NSRF, European Union; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, DFG, HGF, MPG and AvH Foundation, Germany; GSRT and NSRF, Greece; ISF, MINERVA, GIF, DIP and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; BRF and RCN, Norway; MNiSW, Poland; GRICES and FCT, Portugal; MERYS (MECTS), Romania; MES of Russia and ROSATOM, Russian Federation; JINR; MSTD, Serbia; MSSR, Slovakia; ARRS and MIZ. S, Slovenia; DST/NRF, South Africa; MICINN, Spain; SRC and Wallenberg Foundation, Sweden; SER, SNSF and Cantons of Bern and Geneva, Switzerland; NSC, Taiwan; TAEK, Turkey; STFC, the Royal Society and Leverhulme Trust, United Kingdom; DOE and NSF, United States of America.The crucial computing support from all WLCG partners is acknowledged gratefully, in particular from CERN and the ATLAS Tier-1 facilities at TRIUMF (Canada), NDGF (Denmark, Norway, Sweden), CC-IN2P3 (France), KIT/GridKA (Germany), INFN-CNAF (Italy), NL-T1 (Netherlands), PIC (Spain), ASGC (Taiwan), RAL (UK) and BNL (USA) and in the Tier-2 facilities worldwide | Search for direct third-generation squark pair production in final states with missing transverse momentum and two b-jets in s√= 8 TeV pp collisions with the ATLAS detector | search for direct third-generation squark pair production in final states with missing transverse momentum and two b-jets in s√= 8 tev pp collisions with the atlas detector | supersymmetric partners quarks reported. collisions atlas hadron collider. lightest squarks searched missing jets originating quarks. excess found. visible model. exclusion confidence squarks phenomenological supersymmetric parityconserving squark lightest squark. undetectable splitting acknowledge anpcyt argentina yerphi armenia australia bmwf austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc lundbeck foundation denmark eplanet nsrf union cnrs irfu gnsf georgia bmbf foundation gsrt nsrf greece minerva benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland grices portugal merys mects romania russia rosatom russian federation jinr mstd serbia mssr slovakia arrs miz. slovenia africa micinn spain wallenberg foundation sweden snsf cantons bern geneva switzerland taiwan taek turkey stfc royal leverhulme trust kingdom america.the crucial wlcg partners acknowledged gratefully cern atlas tier facilities triumf canada ndgf denmark norway sweden gridka infn cnaf netherlands spain asgc taiwan tier facilities worldwide | non_dup | [] |
78053912 | 10.1007/jhep10(2013)230 | Little Higgs models often give rise to top partners beyond the minimal ones necessary for the cancellation of quadratic divergences. We review how this occurs and discuss the phenomenology of these exotic states. We emphasize the possible importance of new pseudo-Nambu-Goldstone bosons in top partner decays. Indeed, cascade decays of exotic top partners may be the best way to discover these new bosons. We illustrate these points with a new Little Higgs construction based on an SO(10)/SO(5)[superscript 2] coset structure, which fills a gap in the model building literature. These observations motivate new search strategies for top partners at the LHC, including for final states with b-jets and a large multiplicity of electroweak bosons.United States. Dept. of Energy (Cooperative Research Agreement DE-FG02-05ER-41360)United States. Dept. of Energy (Early Career Research Program DE-FG02-11ER-41741 | Exotic top partners and Little Higgs | exotic top partners and little higgs | partners cancellation quadratic divergences. phenomenology exotic states. emphasize pseudo nambu goldstone bosons partner decays. cascade decays exotic partners discover bosons. illustrate superscript coset fills literature. motivate partners jets multiplicity electroweak bosons.united states. dept. cooperative states. dept. career | non_dup | [] |
157767686 | 10.1007/jhep10(2014)013 | We compute the null cusp anomalous dimension of ABJM theory at strong coupling up to two-loop order. This is done by evaluating corrections to the corresponding superstring partition function, weighted by the AdS 4 × ℂℙ3 action in AdS light-cone gauge. We compare our result, where we use an anomalous shift in the AdS 4 radius, with the cusp anomaly of N = 4 SYM, and extract the two-loop contribution to the non-trivial integrable coupling h(λ) of ABJM theory. It coincides with the strong coupling expansion of the exact expression for h(λ) recently conjectured by Gromov and Sizov. Our work provides thus a non-trivial perturbative check for the latter, as well as evidence for two-loop UV-finiteness and quantum integrability of the Type IIA AdS 4 × ℂℙ3 superstring in this gauge | Two-loop cusp anomaly in ABJM at strong coupling | two-loop cusp anomaly in abjm at strong coupling | cusp anomalous abjm order. evaluating superstring partition weighted cone gauge. anomalous cusp anomaly extract trivial integrable abjm theory. coincides conjectured gromov sizov. trivial perturbative check finiteness integrability superstring | non_dup | [] |
78057840 | 10.1007/jhep10(2014)023 | We carry out a systematic analysis of Calabi-Yau threefolds that are elliptically fibered with section (“EFS”) and have a large Hodge number h[superscript 2,1]. EFS Calabi-Yau threefolds live in a single connected space, with regions of moduli space associated with different topologies connected through transitions that can be understood in terms of singular Weierstrass models. We determine the complete set of such threefolds that have h[superscript 2,1] ≥ 350 by tuning coefficients in Weierstrass models over Hirzebruch surfaces. The resulting set of Hodge numbers includes those of all known Calabi-Yau threefolds with h[superscript 2,1] ≥ 350, as well as three apparently new Calabi-Yau threefolds. We speculate that there are no other Calabi-Yau threefolds (elliptically fibered or not) with Hodge numbers that exceed this bound. We summarize the theoretical and practical obstacles to a complete enumeration of all possible EFS Calabi-Yau threefolds and fourfolds, including those with small Hodge numbers, using this approach.Massachusetts Institute of Technology (MIT Dean of Science Fellowship)United States. Dept. of Energy (#DE-FC02-94ER40818 | Calabi-Yau threefolds with large h 2,1 | calabi-yau threefolds with large h 2,1 | carry calabi threefolds elliptically fibered “efs” hodge superscript calabi threefolds live moduli topologies understood singular weierstrass models. threefolds superscript tuning weierstrass hirzebruch surfaces. hodge calabi threefolds superscript apparently calabi threefolds. speculate calabi threefolds elliptically fibered hodge exceed bound. summarize practical obstacles enumeration calabi threefolds fourfolds hodge approach.massachusetts dean fellowship states. dept. | non_dup | [] |
78057837 | 10.1007/jhep10(2014)059 | We propose a new method for pileup mitigation by implementing “pileup per particle identification” (PUPPI). For each particle we first define a local shape α which probes the collinear versus soft diffuse structure in the neighborhood of the particle. The former is indicative of particles originating from the hard scatter and the latter of particles originating from pileup interactions. The distribution of α for charged pileup, assumed as a proxy for all pileup, is used on an event-by-event basis to calculate a weight for each particle. The weights describe the degree to which particles are pileup-like and are used to rescale their four-momenta, superseding the need for jet-based corrections. Furthermore, the algorithm flexibly allows combination with other, possibly experimental, probabilistic information associated with particles such as vertexing and timing performance. We demonstrate the algorithm improves over existing methods by looking at jet p[subscript T] and jet mass. We also find an improvement on non-jet quantities like missing transverse energy.United States. Dept. of Energy (Cooperative Research Agreement DE-FG02-05ER41360)U.S. LHC Theory Initiative (Graduate Fellowship)Istituto nazionale di fisica nucleare (INFN) (Bruno Rossi Fellowship | Pileup per particle identification | pileup per particle identification | propose pileup mitigation implementing “pileup identification” puppi probes collinear diffuse neighborhood particle. former indicative originating scatter originating pileup interactions. pileup proxy pileup particle. weights pileup rescale momenta superseding corrections. flexibly possibly probabilistic vertexing timing performance. improves looking subscript mass. quantities missing energy.united states. dept. cooperative u.s. initiative graduate fellowship istituto nazionale fisica nucleare infn bruno rossi fellowship | non_dup | [] |
29017904 | 10.1007/jhep10(2014)066 | We derive the non-perturbative worldsheet S matrix for fundamental excitations of Type IIB superstring theory on AdS3 ×S3 × T4 with Ramond-Ramond flux. To this end, we study the off-shell symmetry algebra of the theory and its representations. We use these to determine the S matrix up to scalar factors and we derive the crossing equations that these scalar factors satisfy. Our treatment automatically includes fundamental massless excitations, removing a long-standing obstacle in using integrability to study the AdS3/CFT2 correspondence | The complete AdS3 ×S3 × T4 worldsheet S matrix | the complete ads3 ×s3 × t4 worldsheet s matrix | derive perturbative worldsheet excitations superstring ramond ramond flux. representations. derive crossing satisfy. automatically massless excitations removing standing obstacle integrability correspondence | non_dup | [] |
78057843 | 10.1007/jhep10(2014)087 | Event-shape variables, which are sensitive to perturbative and nonperturbative aspects of quantum chromodynamic (QCD) interactions, are studied in multijet events recorded in proton-proton collisions at √s = 7 TeV. Events are selected with at least one jet with transverse momentum p [subscript T] > 110 GeV and pseudorapidity |η| < 2.4, in a data sample corresponding to integrated luminosities of up to 5 fb[superscript −1]. The distributions of five event-shape variables in various leading jet p [subscript T] ranges are compared to predictions from different QCD Monte Carlo event generators.United States. Dept. of EnergyNational Science Foundation (U.S. | Study of hadronic event-shape variables in multijet final states in pp collisions at √s = 7 TeV | study of hadronic event-shape variables in multijet final states in pp collisions at √s = 7 tev | perturbative nonperturbative chromodynamic multijet proton proton collisions tev. subscript pseudorapidity luminosities superscript subscript ranges monte carlo generators.united states. dept. energynational foundation u.s. | non_dup | [] |
78057842 | 10.1007/jhep10(2014)160 | A search for neutral Higgs bosons in the minimal supersymmetric extension of the standard model (MSSM) decaying to tau-lepton pairs in pp collisions is performed, using events recorded by the CMS experiment at the LHC. The dataset corresponds to an integrated luminosity of 24.6 fb[superscript −1], with 4.9 fbsuperscript −1] at 7 TeV and 19.7 fbsuperscript −1] at 8 TeV. To enhance the sensitivity to neutral MSSM Higgs bosons, the search includes the case where the Higgs boson is produced in association with a b-quark jet. No excess is observed in the tau-lepton-pair invariant mass spectrum. Exclusion limits are presented in the MSSM parameter space for different benchmark scenarios, m[subscript h, superscript max], m[subscript h+, superscript mod], m[subscript h-, superscript mod −], light-stop, light-stau, τ-phobic, and low-m H. Upper limits on the cross section times branching fraction for gluon fusion and b-quark associated Higgs boson production are also given.United States. Dept. of EnergyNational Science Foundation (U.S.)Alfred P. Sloan Foundatio | Search for neutral MSSM Higgs bosons decaying to a pair of tau leptons in pp collisions | search for neutral mssm higgs bosons decaying to a pair of tau leptons in pp collisions | neutral bosons supersymmetric mssm decaying lepton collisions lhc. dataset luminosity superscript fbsuperscript fbsuperscript tev. enhance neutral mssm bosons boson jet. excess lepton spectrum. exclusion mssm benchmark scenarios subscript superscript subscript superscript subscript superscript stop stau phobic branching gluon fusion boson given.united states. dept. energynational foundation u.s. alfred sloan foundatio | non_dup | [] |
55640077 | 10.1007/jhep10(2015)054 | A summary is presented of ATLAS searches for gluinos and first- and second-generation squarks in final states containing jets and missing transverse momentum, with or without leptons or b-jets, in the s√=8 TeV data set collected at the Large Hadron Collider in 2012. This paper reports the results of new interpretations and statistical combinations of previously published analyses, as well as a new analysis. Since no significant excess of events over the Standard Model expectation is observed, the data are used to set limits in a variety of models. In all the considered simplified models that assume R-parity conservation, the limit on the gluino mass exceeds 1150 GeV at 95% confidence level, for an LSP mass smaller than 100 GeV. Furthermore, exclusion limits are set for left-handed squarks in a phenomenological MSSM model, a minimal Supergravity/Constrained MSSM model, R-parity-violation scenarios, a minimal gauge-mediated supersymmetry breaking model, a natural gauge mediation model, a non-universal Higgs mass model with gaugino mediation and a minimal model of universal extra dimensions.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF, DNSRC and Lundbeck Foundation, Denmark; EPLANET, ERC and NSRF, European Union; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, DFG, HGF, MPG and AvH Foundation, Germany; GSRT and NSRF, Greece; RGC, Hong Kong SAR, China; ISF, MINERVA, GIF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; BRF and RCN, Norway; MNiSW and NCN, Poland; GRICES and FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MSTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SER, SNSF and Cantons of Bern and Geneva, Switzerland; NSC, Taiwan; TAEK, Turkey; STFC, the Royal Society and Leverhulme Trust, United Kingdom; DOE and NSF, United States of America | Summary of the searches for squarks and gluinos using root s=8 TeV pp collisions with the ATLAS experiment at the LHC | summary of the searches for squarks and gluinos using root s=8 tev pp collisions with the atlas experiment at the lhc | atlas searches gluinos squarks jets missing leptons jets hadron collider interpretations combinations analysis. excess expectation models. simplified parity conservation gluino exceeds confidence gev. exclusion handed squarks phenomenological mssm supergravity constrained mssm parity violation scenarios supersymmetry breaking mediation universal gaugino mediation universal extra dimensions.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc lundbeck foundation denmark eplanet nsrf union cnrs irfu gnsf georgia bmbf foundation gsrt nsrf greece hong kong minerva benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland grices portugal romania russia russian federation jinr mstd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden snsf cantons bern geneva switzerland taiwan taek turkey stfc royal leverhulme trust kingdom america | non_dup | [] |
55640073 | 10.1007/jhep10(2015)134 | A summary of the constraints from the ATLAS experiment on R-parity-conserving supersymmetry is presented. Results from 22 separate ATLAS searches are considered, each based on analysis of up to 20.3 fb−1 of proton-proton collision data at centre-of-mass energies of s√=7 and 8 TeV at the Large Hadron Collider. The results are interpreted in the context of the 19-parameter phenomenological minimal supersymmetric standard model, in which the lightest supersymmetric particle is a neutralino, taking into account constraints from previous precision electroweak and flavour measurements as well as from dark matter related measurements. The results are presented in terms of constraints on supersymmetric particle masses and are compared to limits from simplified models. The impact of ATLAS searches on parameters such as the dark matter relic density, the couplings of the observed Higgs boson, and the degree of electroweak fine-tuning is also shown. Spectra for surviving supersymmetry model points with low fine-tunings are presented.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF, DNSRC and Lundbeck Foundation, Denmark; EPLANET, ERC and NSRF, European Union; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, DFG, HGF, MPG and AvH Foundation, Germany; GSRT and NSRF, Greece; RGC, Hong Kong SAR, China; ISF, MINERVA, GIF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; BRF and RCN, Norway; MNiSW and NCN, Poland; GRICES and FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MSTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SER, SNSF and Cantons of Bern and Geneva, Switzerland; NSC, Taiwan; TAEK, Turkey; STFC, the Royal Society and Leverhulme Trust, United Kingdom; DOE and NSF, United States of America | Summary of the ATLAS experiment's sensitivity to supersymmetry after LHC Run 1-interpreted in the phenomenological MSSM | summary of the atlas experiment's sensitivity to supersymmetry after lhc run 1-interpreted in the phenomenological mssm | atlas parity conserving supersymmetry presented. atlas searches proton proton collision hadron collider. interpreted phenomenological supersymmetric lightest supersymmetric neutralino precision electroweak flavour measurements. supersymmetric simplified models. atlas searches relic couplings boson electroweak fine tuning shown. surviving supersymmetry fine tunings presented.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc lundbeck foundation denmark eplanet nsrf union cnrs irfu gnsf georgia bmbf foundation gsrt nsrf greece hong kong minerva benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland grices portugal romania russia russian federation jinr mstd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden snsf cantons bern geneva switzerland taiwan taek turkey stfc royal leverhulme trust kingdom america | non_dup | [] |
33381573 | 10.1007/jhep10(2015)144 | Citation: Khachatryan, V., Sirunyan, A. M., Tumasyan, A., Adam, W., Asilar, E., Bergauer, T., . . . Collaboration, C. M. S. (2015). Search for a Higgs boson in the mass range from 145 to 1000 GeV decaying to a pair of W or Z bosons. Journal of High Energy Physics(10), 52. doi:10.1007/jhep10(2015)144A search for a heavy Higgs boson in the H -> WW and H -> ZZ decay channels is reported. The search is based upon proton-proton collision data samples corresponding to an integrated luminosity of up to 5.1 fb(-1) at root s = 7 TeV and up to 19.7 fb(-1) at root s = 8 TeV, recorded by the CMS experiment at the CERN LHC. Several final states of the H -> WW and H -> ZZ decays are analyzed. The combined upper limit at the 95% confidence level on the product of the cross section and branching fraction exclude a Higgs boson with standard model-like couplings and decays in the range 145 < m(H) < 1000 GeV. We also interpret the results in the context of an electroweak singlet extension of the standard model.Additional Authors: Hormann, N.;Hrubec, J.;Jeitler, M.;Knunz, V.;Konig, A.;Krammer, M.;Kratschmer, I.;Liko, D.;Matsushita, T.;Mikulec, I.;Rabady, D.;Rahbaran, B.;Rohringer, H.;Schieck, J.;Schofbeck, R.;Strauss, J.;Treberer-Treberspurg, W.;Waltenberger, W.;Wulz, C. E.;Mossolov, V.;Shumeiko, N.;Gonzalez, J. S.;Alderweireldt, S.;Cornelis, T.;De Wolf, E. A.;Janssen, X.;Knutsson, A.;Lauwers, J.;Luyckx, S.;Ochesanu, S.;Rougny, R.;Van De Klundert, M.;Van Haevermaet, H.;Van Mechelen, P.;Van Remortel, N.;Van Spilbeeck, A.;Abu Zeid, S.;Blekman, F.;D'Hondt, J.;Daci, N.;De Bruyn, I.;Deroover, K.;Heracleous, N.;Keaveney, J.;Lowette, S.;Moreels, L.;Olbrechts, A.;Python, Q.;Strom, D.;Tavernier, S.;Van Doninck, W.;Van Mulders, P.;Van Onsem, G. P.;Van Parijs, I.;Barria, P.;Caillol, C.;Clerbaux, B.;De Lentdecker, G.;Delannoy, H.;Dobur, D.;Fasanella, G.;Favart, L.;Gay, A. P. R.;Grebenyuk, A.;Leonard, A.;Mohammadi, A.;Pernie, L.;Randle-Conde, A.;Reis, T.;Seva, T.;Thomas, L.;Vander Velde, C.;Vanlaer, P.;Wang, J.;Zenoni, F.;Zhang, F.;Beernaert, K.;Benucci, L.;Cimmino, A.;Crucy, S.;Fagot, A.;Garcia, G.;Gul, M.;McCartin, J.;Rios, A. A. O.;Poyraz, D.;Ryckbosch, D.;Diblen, S. S.;Sigamani, M.;Strobbe, N.;Tytgat, M.;Van Driessche, W.;Yazgan, E.;Zaganidis, N.;Basegmez, S.;Beluffi, C.;Bondu, O.;Bruno, G.;Castello, R.;Caudron, A.;Ceard, L.;Da Silveira, G. G.;Delaere, C.;du Pree, T.;Favart, D.;Forthomme, L.;Giammanco, A.;Hollar, J.;Jafari, A.;Jez, P.;Komm, M.;Lemaitre, V.;Mertens, A.;Nuttens, C.;Perrini, L.;Pin, A.;Piotrzkowski, K.;Popov, A.;Quertenmont, L.;Selvaggi, M.;Marono, M. V.;Beliy, N.;Caebergs, T.;Hammad, G. H.;Alda, W. L.;Alves, G. A.;Brito, L.;Correa Martins, M.;Martins, T. D. R.;Hensel, C.;Herrera, C. M.;Moraes, A.;Pol, M. E.;Teles, P. R.;Das Chagas, E. B. B.;Carvalho, W.;Chinellato, J.;Custodio, A.;Da Costa, E. M.;Damiao, D. D.;Martins, C. D.;De Souza, S. F.;Guativa, L. M. H.;Malbouisson, H.;Figueiredo, D. M.;Mundim, L.;Nogima, H.;Da Silva, W. L. P.;Santaolalla, J.;Santoro, A.;Sznajder, A.;Manganote, E. J. T.;Pereira, A. V.;Ahuja, S.;Bernardes, C. A.;Dogra, S.;Tomei, Trfp;Gregores, E. M.;Mercadante, P. G.;Moon, C. S.;Novaes, S. F.;Padula, S. S.;Abad, D. R.;Vargas, J. C. R.;Aleksandrov, A.;Genchev, V.;Hadjiiska, R.;Iaydjiev, P.;Marinov, A.;Piperov, S.;Rodozov, M.;Stoykova, S.;Sultanov, G.;Vutova, M.;Dimitrov, A.;Glushkov, I.;Litov, L.;Pavlov, B.;Petkov, P.;Ahmad, M.;Bian, J. G.;Chen, G. M.;Chen, H. S.;Chen, M.;Cheng, T.;Du, R.;Jiang, C. H.;Plestina, R.;Romeo, F.;Shaheen, S. M.;Tao, J.;Wang, C.;Wang, Z.;Zhang, H.;Asawatangtrakuldee, C.;Ban, Y.;Li, Q.;Liu, S.;Mao, Y.;Qian, S. J.;Wang, D.;Xu, Z.;Zou, W.;Avila, C.;Cabrera, A.;Sierra, L. F. C.;Florez, C.;Gomez, J. P.;Moreno, B. G.;Sanabria, J. C.;Godinovic, N.;Lelas, D.;Polic, D.;Puljak, I.;Antunovic, Z.;Kovac, M.;Brigljevic, V.;Kadija, K.;Luetic, J.;Sudic, L.;Attikis, A.;Mavromanolakis, G.;Mousa, J.;Nicolaou, C.;Ptochos, F.;Razis, P. A.;Rykaczewski, H.;Bodlak, M.;Finger, M.;Finger, M.;Ali, A.;Aly, R.;Aly, S.;Assran, Y.;Kamel, A. E.;Lotfy, A.;Mahmoud, M. A.;Masod, R.;Radi, A.;Calpas, B.;Kadastik, M.;Murumaa, M.;Raidal, M.;Tiko, A.;Veelken, C.;Eerola, P.;Voutilainen, M.;Harkonen, J.;Karimaki, V.;Kinnunen, R.;Lampen, T.;Lassila-Perini, K.;Lehti, S.;Linden, T.;Luukka, P.;Maenpaa, T.;Pekkanen, J.;Peltola, T.;Tuominen, E.;Tuominiemi, J.;Tuovi-Nen, E.;Wendland, L.;Talvitie, J.;Tuuva, T.;Besancon, M.;Couderc, F.;Dejardin, M.;Denegri, D.;Fabbro, B.;Faure, J. L.;Favaro, C.;Ferri, F.;Ganjour, S.;Givernaud, A.;Gras, P.;de Monchenault, G. H.;Jarry, P.;Locci, E.;Machet, M.;Maleles, J.;Rander, J.;Rosowsky, A.;Titov, M.;Zghiche, A.;Baffioni, S.;Beaudette, F.;Busson, P.;Cadamuro, L.;Chapon, E.;Chariot, C.;Dahms, T.;Davignon, O.;Filipovic, N.;Florent, A.;de Cassagnac, R. G.;Lisniak, S.;Mas-Trolorenzo, L.;Mine, P.;Naranjo, I. N.;Nguyen, M.;Ochando, C.;Ortona, G.;Paganini, P.;Regnard, S.;Salerno, R.;Sauvan, J. B.;Sirois, Y.;Strebler, T.;Yilmaz, Y.;Zabi, A.;Agram, J. L.;Andrea, J.;Aubin, A.;Bloch, D.;Brom, J. M.;Buttignol, M.;Chabert, E. C.;Chanon, N.;Collard, C.;Conte, E.;Fontaine, J. C.;Gele, D.;Goerlach, U.;Goetzmann, C.;Le Bihan, A. C.;Merlin, J. A.;Skovpen, K.;Van Hove, P.;Gadrat, S.;Beauceron, S.;Beaupere, N.;Bernet, C.;Boudoul, G.;Bouvier, E.;Brochet, S.;Montoya, C. A. C.;Chasserat, J.;Chierici, R.;Contardo, D.;Courbon, B.;Depasse, P.;El Mamouni, H.;Fan, J.;Fay, J.;Gascon, S.;Gouzevitch, M.;Ille, B.;Laktineh, I. B.;Lethuillier, M.;Mirabito, L.;Pequegnot, A. L.;Perries, S.;Alvarez, J. D. R.;Sabes, D.;Sgandurra, L.;Sordini, V.;Vander Donckt, M.;Verdier, P.;Viret, S.;Xiao, H.;Tsamalaidze, Z.;Autermann, C.;Beranek, S.;Edelhoff, M.;Feld, L.;Heister, A.;Kiesel, M. K.;Klein, K.;Lipinski, M.;Ostapchuk, A.;Preuten, M.;Raupach, F.;Sammet, J.;Schael, S.;Schulte, J. F.;Verlage, T.;Weber, H.;Wittmer, B.;Zhukov, V.;Ata, M.;Brodski, M.;Dietz-Laursonn, E.;Duchardt, D.;Endres, M.;Erdmann, M.;Erdweg, S.;Esch, T.;Fischer, R.;Guth, A.;Hebbeker, T.;Heidemann, C.;Hoepfner, K.;Klingebiel, D.;Knutzen, S.;Kreuzer, P.;Merschmeyer, M.;Meyer, A.;Millet, P.;Olschewski, M.;Padeken, K.;Papacz, P.;Pook, T.;Radziej, M.;Reithler, H.;Rieger, M.;Scheuch, F.;Sonnenschein, L.;Teyssier, D.;Thuer, S.;Cherepanov, V.;Erdogan, Y.;Flugge, G.;Geenen, H.;Geisler, M.;Ahmad, W. H.;Hoehle, F.;Kargoll, B.;Kress, T.;Kuessel, Y.;Kunsken, A.;Lingemann, J.;Nehrkorn, A.;Nowack, A.;Nugent, I. M.;Pistone, C.;Pooth, O.;Stahl, A.;Martin, M. A.;Asin, I.;Bartosik, N.;Behnke, O.;Behrens, U.;Bell, A. J.;Borras, K.;Burgmeier, A.;Cakir, A.;Calligaris, L.;Campbell, A.;Choudhury, S.;Costanza, F.;Pardos, C. D.;Dolinska, G.;Dooling, S.;Dorland, T.;Eckerlin, G.;Eckstein, D.;Eichhorn, T.;Flucke, G.;Gallo, E.;Garcia, J. G.;Geiser, A.;Gizhko, A.;Gunnellini, P.;Hauk, J.;Hempel, M.;Jung, H.;Kalogeropoulos, A.;Karacheban, O.;Kasemann, M.;Katsas, P.;Kieseler, J.;Kleinwort, C.;Korol, I.;Lange, W.;Leonard, J.;Lipka, K.;Lobanov, A.;Lohmann, W.;Mankel, R.;Marfin, I.;Melzer-Pellmann, I. A.;Meyer, A. B.;Mit-Tag, G.;Mnich, J.;Mussgiller, A.;Naumann-Emme, S.;Nayak, A.;Ntomari, E.;Perrey, H.;Pitzl, D.;Placakyte, R.;Raspereza, A.;Cipriano, P. M. R.;Roland, B.;Sahin, M. O.;Salfeld-Nebgen, J.;Saxena, P.;Schoerner-Sadenius, T.;Schroder, M.;Spannagel, C. S. S.;Trippkewitz, K. D.;Wissing, C.;Blobel, V.;Vignali, M. C.;Draeger, A. R.;Erfle, J.;Garutti, E.;Goebel, K.;Gonzalez, D.;Gorner, M.;Haller, J.;Hoffmann, M.;Hoing, R. S.;Junkes, A.;Klanner, R.;Kogler, R.;Lapsien, T.;Lenz, T.;Marchesini, I.;Marconi, D.;Nowatschin, D.;Ott, J.;Pantaleo, F.;Peiffer, T.;Perieanu, A.;Pietsch, N.;Poehlsen, J.;Rathjens, D.;Sander, C.;Schettler, H.;Schleper, P.;Schlieckau, E.;Schmidt, A.;Seidel, M.;Sola, V.;Stadie, H.;Steinbruck, G.;Tholen, H.;Troendle, D.;Usai, E.;Vanelderen, L.;Vanhoefer, A.;Akbiyik, M.;Barth, C.;Baus, C.;Berger, J.;Boser, C.;Butz, E.;Chwalek, T.;Colombo, F.;De Boer, W.;Descroix, A.;Dierlamm, A.;Feindt, M.;Frensch, F.;Giffels, M.;Gilbert, A.;Hartmann, F.;Husemann, U.;Kassel, F.;Katkov, I.;Kornmayer, A.;Pardo, P. L.;Mozer, M. U.;Muller, T.;Muller, T.;Plagge, M.;Quast, G.;Rabbertz, K.;Rocker, S.;Roscher, F.;Simonis, H. J.;Stober, F. M.;Ulrich, R.;Wagner-Kuhr, J.;Wayand, S.;Weiler, T.;Wohrmann, C.;Wolf, R.;Anagnostou, G.;Daskalakis, G.;Geralis, T.;Giakoumopoulou, V. A.;Kyriakis, A.;Loukas, D.;Markou, A.;Psallidas, A.;Topsis-Giotis, I.;Agapitos, A.;Kesisoglou, S.;Panagiotou, A.;Saoulidou, N.;Tziaferi, E.;Evangelou, I.;Flouris, G.;Foudas, C.;Kokkas, P.;Loukas, N.;Manthos, N.;Papadopoulos, I.;Paradas, E.;Strologas, J.;Bencze, G.;Hajdu, C.;Hazi, A.;Hidas, P.;Horvath, D.;Sikler, F.;Veszpremi, V.;Vesztergombi, G.;Zsigmond, A. J.;Beni, N.;Czellar, S.;Karancsi, J.;Molnar, J.;Szillasi, Z.;Bartok, M.;Makovec, A.;Raics, P.;Trocsanyi, Z. L.;Ujvari, B.;Mal, P.;Mandal, K.;Sahoo, N.;Swain, S. K.;Bansal, S.;Beri, S. B.;Bhatnagar, V.;Chawla, R.;Gupta, R.;Bhawandeep, U.;Kalsi, A. K.;Kaur, A.;Kaur, M.;Kumar, R.;Mehta, A.;Mittal, M.;Nishu, N.;Singh, J. B.;Walia, G.;Kumar, A.;Kumar, A.;Bhardwaj, A.;Choudhary, B. C.;Garg, R. B.;Kumar, A.;Malhotra, S.;Naimuddin, M.;Ranjan, K.;Sharma, R.;Sharma, V.;Banerjee, S.;Bhattacharya, S.;Chatterjee, K.;Dey, S.;Dutta, S.;Jain, S.;Jain, S.;Khurana, R.;Majumdar, N.;Modak, A.;Mondal, K.;Mukherjee, S.;Mukhopadhyay, S.;Roy, A.;Roy, D.;Chowdhury, S. R.;Sarkar, S.;Sharan, M.;Abdulsalam, A.;Chudasama, R.;Dutta, D.;Jha, V.;Kumar, V.;Mohanty, A. K.;Pant, L. M.;Shukla, P.;Topkar, A.;Aziz, T.;Banerjee, S.;Bhowmik, S.;Chatterjee, R. M.;Dewanjee, R. K.;Dugad, S.;Gan-Guly, S.;Ghosh, S.;Guchait, M.;Gurtu, A.;Kole, G.;Kumar, S.;Mahakud, B.;Maity, M.;Majumder, G.;Mazumdar, K.;Mitra, S.;Mohanty, G. B.;Parida, B.;Sarkar, T.;Sudhakar, K.;Sur, N.;Sutar, B.;Wickramage, N.;Sharma, S.;Bakhshiansohi, H.;Behnamian, H.;Etesami, S. M.;Fahim, A.;Goldouzian, R.;Khakzad, M.;Najafabadi, M. M.;Naseri, M.;Mehdiabadi, S. P.;Hosseinabadi, F. R.;Safarzadeh, B.;Zeinali, M.;Felcini, M.;Grunewald, M.;Abbrescia, M.;Calabria, C.;Caputo, C.;Chhibra, S. S.;Colaleo, A.;Creanza, D.;Cristella, L.;De Filippis, N.;De Palma, M.;Fiore, L.;Iaselli, G.;Maggi, G.;Maggi, M.;Miniello, G.;My, S.;Nuzzo, S.;Pompili, A.;Pugliese, G.;Radogna, R.;Ranieri, A.;Selvaggi, G.;Sharma, A.;Silvestris, L.;Venditti, R.;Verwilligen, P.;Abbiendi, G.;Battilana, C.;Benvenuti, A. C.;Bonacorsi, D.;Braibant-Giacomelli, S.;Brigliadori, L.;Campanini, R.;Capiluppi, P.;Castro, A.;Cavallo, F. R.;Codispoti, G.;Cuffiani, M.;Dallavalle, G. M.;Fabbri, F.;Fanfani, A.;Fasanella, D.;Giacomelli, P.;Grandi, C.;Guiducci, L.;Marcellini, S.;Masetti, G.;Montanari, A.;Navarria, F. L.;Perrotta, A.;Rossi, A. M.;Rovelli, T.;Siroli, G. P.;Tosi, N.;Travaglini, R.;Cappello, G.;Chiorboli, M.;Costa, S.;Giordano, F.;Potenza, R.;Tricomi, A.;Tuve, C.;Barbagli, G.;Ciulli, V.;Civinini, C.;D'Alessandro, R.;Focardi, E.;Gonzi, S.;Gori, V.;Lenzi, P.;Meschini, M.;Paoletti, S.;Puggelli, A.;Sguazzoni, G.;Tropiano, A.;Viliani, L.;Benussi, L.;Bianco, S.;Fabbri, F.;Piccolo, D.;Calvelli, V.;Ferro, F.;Lo Vetere, M.;Robutti, E.;Tosi, S.;Dinardo, M. E.;Fiorendi, S.;Gennai, S.;Gerosa, R.;Ghezzi, A.;Govoni, P.;Malvezzi, S.;Manzoni, R. A.;Marzocchi, B.;Menasce, D.;Moroni, L.;Paganoni, M.;Pedrini, D.;Ragazzi, S.;Redaelli, N.;de Fatis, T. T.;Buontempo, S.;Cavallo, N.;Di Guida, S.;Esposito, M.;Fabozzi, F.;Iorio, A. O. M.;Lanza, G.;Lista, L.;Meola, S.;Merola, M.;Paolucci, P.;Sciacca, C.;Thyssen, F.;Azzi, P.;Bacchetta, N.;Bisello, D.;Carlin, R.;De Oliveira, A. C. A.;Cheechia, P.;Dall'Osso, M.;Dorigo, T.;Dosselli, U.;Gasparini, F.;Gasparini, U.;Gonella, F.;Gozzelino, A.;Laeaprara, S.;Margoni, M.;Meneguzzo, A. T.;Miehelotto, M.;Pazzini, J.;Pozzobon, N.;Ronehese, P.;Simonetto, F.;Torassa, E.;Tosi, M.;Zanetti, M.;Zotto, P.;Zucchetta, A.;Zumerle, G.;Braghieri, A.;Gabusi, M.;Magnani, A.;Ratti, S. P.;Re, V.;Riccardi, C.;Salvini, P.;Vai, I.;Vitulo, P.;Biasini, M.;Bilei, G. M.;Ciangottini, D.;Fano, L.;Lariecia, P.;Mantovani, G.;Meniehelli, M.;Saha, A.;Santocchia, A.;Spiezia, A.;Androsov, K.;Azzurri, P.;Bagliesi, G.;Bernardini, J.;Boccali, T.;Broccolo, G.;Castaldi, R.;Ciocci, M. A.;Dell'Orso, R.;Donato, S.;Fedi, G.;Foa, L.;Giassi, A.;Grippo, M. T.;Ligabue, F.;Lomtadze, T.;Martini, L.;Messineo, A.;Palla, F.;Rizzi, A.;Savoy-Navarro, A.;Serban, A. T.;Spagnolo, P.;Squillacioti, P.;Tenchini, R.;Tonelli, G.;Venturi, A.;Verdini, P. G.;Barone, L.;Cavallari, F.;D'Imperio, G.;Del Re, D.;Diemoz, M.;Gelli, S.;Jorda, C.;Longo, E.;Margaroli, F.;Meridiani, P.;Micheli, F.;Organtini, G.;Paramatti, R.;Preiato, F.;Rahatlou, S.;Rovelli, C.;Santanastasio, F.;Soffi, L.;Traczyk, P.;Amapane, N.;Arcidiacono, R.;Argiro, S.;Arneodo, M.;Bellan, R.;Biino, C.;Cartiglia, N.;Casasso, S.;Costa, M.;Covarelli, R.;Degano, A.;Demaria, N.;Finco, L.;Kiani, B.;Mariotti, C.;Maselli, S.;Migliore, E.;Monaco, V.;Musich, M.;Obertino, M. M.;Paeher, L.;Pastrone, N.;Pelliccioni, M.;Angioni, G. L. P.;Romero, A.;Ruspa, M.;Sacchi, R.;Solano, A.;Staiano, A.;Tamponi, U.;Belforte, S.;Candelise, V.;Casarsa, M.;Cossutti, F.;Della Ricca, G.;Gobbo, B.;La Licata, C.;Marone, M.;Schizzi, A.;Umer, T.;Zanetti, A.;Chang, S.;Kropivnitskaya, A.;Nam, S. K.;Kim, D. H.;Kim, G. N.;Kim, M. S.;Kong, D. J.;Lee, S.;Oh, Y. D.;Sakharov, A.;Son, D. C.;Kim, H.;Kim, T. J.;Ryu, M. S.;Song, S.;Choi, S.;Go, Y.;Gyun, D.;Hong, B.;Jo, M.;Kim, H.;Kim, Y.;Lee, B.;Lee, K.;Lee, K. S.;Lee, S.;Park, S. K.;Roh, Y.;Yoo, H. D.;Choi, M.;Kim, J. H.;Lee, J. S. H.;Park, I. C.;Ryu, G.;Choi, Y.;Choi, Y. K.;Goh, J.;Kim, D.;Kwon, E.;Lee, J.;Yu, I.;Juodagalvis, A.;Vaitkus, J.;Ibrahim, Z. A.;Komaragiri, J. R.;Ali, Mabm;Idris, F. M.;Abdullah, Watw;Linares, E. C.;Castilla-Valdez, H.;De La Cruz-Burelo, E.;Heredia-De La Cruz, I.;Hernandez-Almada, A.;Lopez-Fernandez, R.;Sanchez, G. R.;Sanchez-Hernandez, A.;Moreno, S. C.;Valencia, F. V.;Carpinteyro, S.;Pedraza, I.;Ibarguen, H. A. S.;Pineda, A. M.;Krofcheck, D.;Butler, P. H.;Reucroft, S.;Ahmad, A.;Ahmad, M.;Hassan, Q.;Hoorani, H. R.;Khan, W. A.;Khurshid, T.;Shoaib, M.;Bialkowska, H.;Bluj, M.;Boimska, B.;Frueboes, T.;Goski, M.;Kazana, M.;Nawrocki, K.;Romanowska-Rybinska, K.;Szleper, M.;Zalewski, P.;Brona, G.;Bunkowski, K.;Doroba, K.;Kalinowski, A.;Konecki, M.;Krolikowski, J.;Mis-iura, M.;Olszewski, M.;Walczak, M.;Bargassa, P.;Silva, Cbde;Di Francesco, A.;Faccioli, P.;Parracho, P. G. F.;Gallinaro, M.;Iglesias, L. L.;Nguyen, F.;Antunes, J. R.;Seixas, J.;Toldaiev, O.;Vadruccio, D.;Varcla, J.;Vischia, P.;Afanasiev, S.;Bunin, P.;Gavrilenko, M.;Golutvin, I.;Gorbunov, I.;Kamenev, A.;Karjavin, V.;Konoplyanikov, V.;Lanev, A.;Malakhov, A.;Matveev, V.;Moisenz, P.;Palichik, V.;Perelygin, V.;Shmatov, S.;Shulha, S.;Skatchkov, N.;Smirnov, V.;Toriashvili, T.;Zarubin, A.;Golovtsov, V.;Ivanov, Y.;Kim, V.;Kuznetsova, E.;Levchenko, P.;Murzin, V.;Oreshkin, V.;Smirnov, I.;Sulimov, V.;Uvarov, L.;Vavilov, S.;Vorobyev, A.;Andreev, Y.;Dermenev, A.;Gninenko, S.;Golubev, N.;Karneyeu, A.;Kirsanov, M.;Krasnikov, N.;Pashenkov, A.;Tlisov, D.;Toropin, A.;Epshteyn, V.;Gavrilov, V.;Lychkovskaya, N.;Popov, V.;Pozdnyakov, I.;Safronov, G.;Spiridonov, A.;Vlasov, E.;Zhokin, A.;Andreev, V.;Azarkin, M.;Dremin, I.;Kirakosyan, M.;Leonidov, A.;Mesyats, G.;Rusakov, S. V.;Vinogradov, A.;Baskakov, A.;Belyaev, A.;Boos, E.;Dubinin, M.;Dudko, L.;Ershov, A.;Gribushin, A.;Klyukhin, V.;Kodolova, O.;Lokhtin, I.;Myagkov, I.;Obraztsov, S.;Petrushanko, S.;Savrin, V.;Snigirev, A.;Azhgirey, I.;Bayshev, I.;Bitioukov, S.;Kachanov, V.;Kalinin, A.;Konstantinov, D.;Krychkine, V.;Petrov, V.;Ryutin, R.;Sobol, A.;Tourtchanovitch, L.;Troshin, S.;Tyurin, N.;Uzunian, A.;Volkov, A.;Adzic, P.;Ekmedzic, M.;Milosevic, J.;Rekovic, V.;Maestre, J. A.;Calvo, E.;Cerrada, M.;Llatas, M. C.;Colino, N.;De la Cruz, B.;Pens, A. D.;Vazquez, D. D.;Del Valle, A. E.;Bedoya, C. F.;Ramos, J. P. F.;Flix, J.;Fouz, M. C.;Garcia-Abia, P.;Lopez, O. G.;Lopez, S. G.;Hernandez, J. M.;Josa, M. I.;De Martino, E. N.;Yzquierdo, A. P. C.;Pelayo, J. P.;Olmeda, A. Q.;Redondo, I.;Romero, L.;Soares, M. S.;Albajar, C.;De Troceniz, J. F.;Missiroli, M.;Moran, D.;Brun, H.;Cuevas, J.;Menendez, J. F.;Folgueras, S.;Caballero, I. G.;Cortezon, E. P. L.;Garcia, J. M. V.;Cifuentes, J. A. B.;Cabrillo, I. J.;Calderon, A.;De Saa, J. R. C.;Campderros, J. D.;Fernandez, M.;Gomez, G.;Graziano, A.;Virto, A. L.;Marco, J.;Marco, R.;Rivero, C. M.;Matorras, F.;Sanchez, F. J. M.;Gomez, J. P.;Rodrigo, T.;Rodriguez-Marrero, A. Y.;Ruiz-Jimeno, A.;Scodellaro, L.;Vila, I.;Cortabitarte, R. V.;Abbaneo, D.;Auffray, E.;Auzinger, G.;Bachtis, M.;Baillon, P.;Ball, A. H.;Barney, D.;Benaglia, A.;Bendavid, J.;Benhabib, L.;Benitez, J. F.;Berruti, G. M.;Bloch, P.;Bocci, A.;Bonato, A.;Botta, C.;Breuker, H.;Camporesi, T.;Cerminara, G.;Colafranceschi, S.;D'Alfonso, M.;D'Enterria, D.;Dabrowski, A.;Daponte, V.;David, A.;De Gruttola, M.;De Guio, F.;De Roeck, A.;De Visscher, S.;Di Marco, E.;Dobson, M.;Dordevic, M.;Dupont-Sagorin, N.;Elliott-Peisert, A.;Franzoni, G.;Funk, W.;Gigi, D.;Gill, K.;Giordano, D.;Girone, M.;Glege, F.;Guida, R.;Gundacker, S.;Guthoff, M.;Hammer, J.;Hansen, M.;Harris, P.;Hegeman, J.;Innocente, V.;Janot, P.;Kirschenmann, H.;Kortelainen, M. J.;Kousouris, K.;Krajczar, K.;Lecoq, P.;Lourenco, C.;Lucchini, M. T.;Magini, N.;Malgeri, L.;Mannelli, M.;Marrouche, J.;Martelli, A.;Masetti, L.;Meijers, F.;Mersi, S.;Meschi, E.;Moortgat, F.;Morovic, S.;Mulders, M.;Nemallapudi, M. V.;Neugebauer, H.;Orfanelli, S.;Orsini, L.;Pape, L.;Perez, E.;Petrilli, A.;Petrucciani, G.;Pfeiffer, A.;Piparo, D.;Racz, A.;Rolandi, G.;Rovere, M.;Ruan, M.;Sakulin, H.;Schafer, C.;Schwick, C.;Sharma, A.;Silva, P.;Simon, M.;Sphicas, P.;Spiga, D.;Steggemann, J.;Stieger, B.;Stoye, M.;Takahashi, Y.;Treille, D.;Tsirou, A.;Veres, G. I.;Wardle, N.;Wohri, H. K.;Zagozdzinska, A.;Zeuner, W. D.;Bertl, W.;Deiters, K.;Erdmann, W.;Horisberger, R.;Ingram, Q.;Kaestli, H. C.;Kotlinski, D.;Langenegger, U.;Rohe, T.;Bachmair, F.;Bani, L.;Bianchini, L.;Buchmann, M. A.;Casal, B.;Dissertori, G.;Dittmar, M.;Donega, M.;Dunser, M.;Eller, P.;Grab, C.;Heidegger, C.;Hits, D.;Hoss, J.;Kasieczka, G.;Lustermann, W.;Mangano, B.;Marini, A. C.;Marionneau, M.;Del Arbol, P. M. R.;Masciovecchio, M.;Meister, D.;Mohr, N.;Musella, P.;Nessi-Tedaldi, F.;Pandolfi, F.;Pata, J.;Pauss, F.;Perrozzi, L.;Peruzzi, M.;Quittnat, M.;Rossini, M.;Starodumov, A.;Takahashi, M.;Tavolaro, V. R.;Theofilatos, K.;Wallny, R.;Weber, H. A.;Aarrestad, T. K.;Amsler, C.;Canelli, M. F.;Chiochia, V.;De Cosa, A.;Galloni, C.;Hinz-Mann, A.;Hreus, T.;Kilminster, B.;Lange, C.;Ngadiuba, J.;Pinna, D.;Robmann, P.;Ronga, F. J.;Salerno, D.;Taroni, S.;Yang, Y.;Cardaci, M.;Chen, K. H.;Doan, T. H.;Ferro, C.;Konyushikhin, M.;Kuo, C. M.;Lin, W.;Lu, Y. J.;Volpe, R.;Yu, S. S.;Chang, P.;Chang, Y. H.;Chang, Y. W.;Chao, Y.;Chen, K. F.;Chen, P. H.;Dietz, C.;Fiori, F.;Grundler, U.;Hou, W. S.;Hsiung, Y.;Liu, Y. F.;Lu, R. S.;Moya, M. M.;Petrakou, E.;Tsai, J. F.;Tzeng, Y. M.;Wilken, R.;Asavapibhop, B.;Kovitanggoon, K.;Singh, G.;Srimanobhas, N.;Suwonjandee, N.;Adiguzel, A.;Bakirci, M. N.;Dozen, C.;Dumanoglu, I.;Eskut, E.;Girgis, S.;Gokbulut, G.;Guler, Y.;Gurpinar, E.;Hos, I.;Kangal, E. E.;Onengut, G.;Ozdemir, K.;Polatoz, A.;Cerci, D. S.;Vergili, M.;Zorbilmez, C.;Akin, I. V.;Bilin, B.;Bilmis, S.;Isildak, B.;Karapinar, G.;Surat, U. E.;Yalvac, M.;Zeyrek, M.;Albayrak, E. A.;Gulmez, E.;Kaya, M.;Kaya, O.;Yetkin, T.;Cankocak, K.;Gunaydin, Y. O.;Vardarh, F. I.;Grynyov, B.;Levchuk, L.;Sorokin, P.;Aggleton, R.;Ball, F.;Beck, L.;Brooke, J. J.;Clement, E.;Cussans, D.;Flacher, H.;Gold-stein, J.;Grimes, M.;Heath, G. P.;Heath, H. F.;Jacob, J.;Kreczko, L.;Lucas, C.;Meng, Z.;Newbold, D. M.;Paramesvaran, S.;Poll, A.;Sakuma, T.;El Nasr-storey, S. S.;Senkin, S.;Smith, D.;Smith, V. J.;Bell, K. W.;Belyaev, A.;Brew, C.;Brown, R. M.;Cockerill, D. J. A.;Coughlan, J. A.;Harder, K.;Harper, S.;Olaiya, E.;Petyt, D.;Shepherd-Themistocleous, C. H.;Thea, A.;Tomalin, I. R.;Williams, T.;Womersley, W. J.;Worm, S. D.;Baber, M.;Bainbridge, R.;Buchmuller, O.;Bundock, A.;Burton, D.;Citron, M.;Colling, D.;Corpe, L.;Cripps, N.;Dauncey, P.;Davies, G.;De Wit, A.;Della Negra, M.;Dunne, P.;Elwood, A.;Ferguson, W.;Fulcher, J.;Futyan, D.;Hall, G.;Iles, G.;Karapostoli, G.;Kenzie, M.;Lane, R.;Lucas, R.;Lyons, L.;Magnan, A. M.;Malik, S.;Nash, J.;Nikitenko, A.;Pela, J.;Pesaresi, M.;Petridis, K.;Raymond, D. M.;Richards, A.;Rose, A.;Seez, C.;Sharp, P.;Tapper, A.;Uchida, K.;Acosta, M. V.;Virdee, T.;Zenz, S. C.;Cole, J. E.;Hobson, P. R.;Khan, A.;Kyberd, P.;Leggat, D.;Leslie, D.;Reid, I. D.;Symonds, P.;Teodorescu, L.;Turner, M.;Borzou, A.;Dittmann, J.;Hatakeyama, K.;Kasmi, A.;Liu, H.;Pastika, N.;Scarborough, T.;Charaf, O.;Cooper, S. I.;Henderson, C.;Rumerio, P.;Avetisyan, A.;Bose, T.;Fantasia, C.;Gastler, D.;Lawson, P.;Rankin, D.;Richardson, C.;Rohlf, J.;John, J. S.;Sulak, L.;Zou, D.;Alimena, J.;Berry, E.;Bhattacharya, S.;Cutts, D.;Demiragli, Z.;Dhingra, N.;Ferapon-Tov, A.;Garabedian, A.;Heintz, U.;Laird, E.;Landsberg, G.;Mao, Z.;Narain, M.;Sagir, S.;Sinthuprasith, T.;Breedon, R.;Breto, G.;Sanchez, Mcdlb;Chauhan, S.;Chertok, M.;Con-way, J.;Conway, R.;Cox, P. T.;Erbacher, R.;Gardner, M.;Ko, W.;Lander, R.;Mulhearn, M.;Pellett, D.;Pilot, J.;Ricci-Tam, F.;Shalhout, S.;Smith, J.;Squires, M.;Stolp, D.;Tripathi, M.;Wilbur, S.;Yohay, R.;Cousins, R.;Everaerts, P.;Farrell, C.;Hauser, J.;Ignatenko, M.;Rakness, G.;Saltzberg, D.;Takasugi, E.;Valuev, V.;Weber, M.;Burt, K.;Clare, R.;Ellison, J.;Gary, J. W.;Hanson, G.;Heilman, J.;Rikova, M. I.;Jandir, P.;Kennedy, E.;Lacroix, F.;Long, O. R.;Luthra, A.;Malberti, M.;Negrete, M. O.;Shrinivas, A.;Sumowidagdo, S.;Wei, H.;Wimpenny, S.;Branson, J. G.;Cerati, G. B.;Cittolin, S.;D'Agnolo, R. T.;Holzner, A.;Kelley, R.;Klein, D.;Kovalskyi, D.;Letts, J.;Macneill, I.;Olivito, D.;Padhi, S.;Pieri, M.;Sani, M.;Sharma, V.;Simon, S.;Tadel, M.;Tu, Y.;Vartak, A.;Wasserbaech, S.;Welke, C.;Wiirthwein, F.;Yagil, A.;Della Porta, G. Z.;Barge, D.;Bradmiller-Feld, J.;Campagnari, C.;Dishaw, A.;Dutta, V.;Flowers, K.;Sevilla, M. F.;Geffert, P.;George, C.;Golf, F.;Gouskos, L.;Gran, J.;Incandela, J.;Justus, C.;McColl, N.;M | Search for a Higgs boson in the mass range from 145 to 1000 GeV decaying to a pair of W or Z bosons | search for a higgs boson in the mass range from 145 to 1000 gev decaying to a pair of w or z bosons | citation khachatryan sirunyan tumasyan adam asilar bergauer boson decaying bosons. jhep boson reported. proton proton collision luminosity cern lhc. decays analyzed. confidence branching exclude boson couplings decays gev. interpret electroweak singlet model.additional hormann hrubec jeitler knunz konig krammer kratschmer liko matsushita mikulec rabady rahbaran rohringer schieck schofbeck strauss treberer treberspurg waltenberger wulz mossolov shumeiko gonzalez alderweireldt cornelis wolf janssen knutsson lauwers luyckx ochesanu rougny klundert haevermaet mechelen remortel spilbeeck zeid blekman hondt daci bruyn deroover heracleous keaveney lowette moreels olbrechts python strom tavernier 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topsis giotis agapitos kesisoglou panagiotou saoulidou tziaferi evangelou flouris foudas kokkas loukas manthos papadopoulos paradas strologas bencze hajdu hazi hidas horvath sikler veszpremi vesztergombi zsigmond beni czellar karancsi molnar szillasi bartok makovec raics trocsanyi ujvari mandal sahoo swain bansal beri bhatnagar chawla gupta bhawandeep kalsi kaur kaur kumar mehta mittal nishu singh walia kumar kumar bhardwaj choudhary garg kumar malhotra naimuddin ranjan sharma sharma banerjee bhattacharya chatterjee dutta jain jain khurana majumdar modak mondal mukherjee mukhopadhyay chowdhury sarkar sharan abdulsalam chudasama dutta kumar mohanty pant shukla topkar aziz banerjee bhowmik chatterjee dewanjee dugad guly ghosh guchait gurtu kole kumar mahakud maity majumder mazumdar mitra mohanty parida sarkar sudhakar sutar wickramage sharma bakhshiansohi behnamian etesami fahim goldouzian khakzad najafabadi naseri mehdiabadi hosseinabadi safarzadeh zeinali felcini grunewald abbrescia calabria caputo chhibra colaleo creanza cristella filippis palma fiore iaselli maggi maggi miniello nuzzo pompili pugliese radogna ranieri selvaggi sharma silvestris venditti verwilligen abbiendi battilana benvenuti bonacorsi braibant giacomelli brigliadori campanini capiluppi castro cavallo codispoti cuffiani dallavalle fabbri fanfani fasanella giacomelli grandi guiducci marcellini masetti montanari navarria perrotta rossi rovelli siroli tosi travaglini cappello chiorboli costa giordano potenza tricomi tuve barbagli ciulli civinini alessandro focardi gonzi gori lenzi meschini paoletti puggelli sguazzoni tropiano viliani benussi bianco fabbri piccolo calvelli ferro vetere robutti tosi dinardo fiorendi gennai gerosa ghezzi govoni malvezzi manzoni marzocchi menasce moroni paganoni pedrini ragazzi redaelli fatis buontempo cavallo guida esposito fabozzi iorio lanza lista meola merola paolucci sciacca thyssen azzi bacchetta bisello carlin oliveira cheechia dall osso dorigo dosselli gasparini gasparini gonella gozzelino laeaprara margoni meneguzzo miehelotto pazzini pozzobon ronehese simonetto torassa tosi zanetti zotto zucchetta zumerle braghieri gabusi magnani ratti riccardi salvini vitulo biasini bilei ciangottini fano lariecia mantovani meniehelli saha santocchia spiezia androsov azzurri bagliesi bernardini boccali broccolo castaldi ciocci dell orso donato fedi giassi grippo ligabue lomtadze martini messineo palla rizzi savoy navarro serban spagnolo squillacioti tenchini tonelli venturi verdini barone cavallari imperio diemoz gelli jorda longo margaroli meridiani micheli organtini paramatti preiato rahatlou rovelli santanastasio soffi traczyk amapane arcidiacono argiro arneodo bellan biino cartiglia casasso costa covarelli degano demaria finco kiani mariotti maselli migliore monaco musich obertino paeher pastrone pelliccioni angioni romero ruspa sacchi solano staiano tamponi belforte candelise casarsa cossutti della ricca gobbo licata marone schizzi umer zanetti chang kropivnitskaya kong sakharov song choi gyun hong park choi park choi choi kwon juodagalvis vaitkus ibrahim komaragiri mabm idris abdullah watw linares castilla valdez cruz burelo heredia cruz hernandez almada lopez fernandez sanchez sanchez hernandez moreno valencia carpinteyro pedraza ibarguen pineda krofcheck butler reucroft ahmad ahmad hassan hoorani khan khurshid shoaib bialkowska bluj boimska frueboes goski kazana nawrocki romanowska rybinska szleper zalewski brona bunkowski doroba kalinowski konecki krolikowski iura olszewski walczak bargassa silva cbde francesco faccioli parracho gallinaro iglesias nguyen antunes seixas toldaiev vadruccio varcla vischia afanasiev bunin gavrilenko golutvin gorbunov kamenev karjavin konoplyanikov lanev malakhov matveev moisenz palichik perelygin shmatov shulha skatchkov smirnov toriashvili zarubin golovtsov ivanov kuznetsova levchenko murzin oreshkin smirnov sulimov uvarov vavilov vorobyev andreev dermenev gninenko golubev karneyeu kirsanov krasnikov pashenkov tlisov toropin epshteyn gavrilov lychkovskaya popov pozdnyakov safronov spiridonov vlasov zhokin andreev azarkin dremin kirakosyan leonidov mesyats rusakov vinogradov baskakov belyaev boos dubinin dudko ershov gribushin klyukhin kodolova lokhtin myagkov obraztsov petrushanko savrin snigirev azhgirey bayshev bitioukov kachanov kalinin konstantinov krychkine petrov ryutin sobol tourtchanovitch troshin tyurin uzunian volkov adzic ekmedzic milosevic rekovic maestre calvo cerrada llatas colino cruz pens vazquez valle bedoya ramos flix fouz garcia abia lopez lopez hernandez josa martino yzquierdo pelayo olmeda redondo romero soares albajar troceniz missiroli moran brun cuevas menendez folgueras caballero cortezon garcia cifuentes cabrillo calderon campderros fernandez gomez graziano virto marco marco rivero matorras sanchez gomez rodrigo rodriguez marrero ruiz jimeno scodellaro vila cortabitarte abbaneo auffray auzinger bachtis baillon ball barney benaglia bendavid benhabib benitez berruti bloch bocci bonato botta breuker camporesi cerminara colafranceschi alfonso enterria dabrowski daponte david gruttola guio roeck visscher marco dobson dordevic dupont sagorin elliott peisert franzoni funk gigi gill giordano girone glege guida gundacker guthoff hammer hansen harris hegeman innocente janot kirschenmann kortelainen kousouris krajczar lecoq lourenco lucchini magini malgeri mannelli marrouche martelli masetti meijers mersi meschi moortgat morovic mulders nemallapudi neugebauer orfanelli orsini pape perez petrilli petrucciani pfeiffer piparo racz rolandi rovere ruan sakulin schafer schwick sharma silva simon sphicas spiga steggemann stieger stoye takahashi treille tsirou veres wardle wohri zagozdzinska zeuner bertl deiters erdmann horisberger ingram kaestli kotlinski langenegger rohe bachmair bani bianchini buchmann casal dissertori dittmar donega dunser eller grab heidegger hits hoss kasieczka lustermann mangano marini marionneau arbol masciovecchio meister mohr musella nessi tedaldi pandolfi pata pauss perrozzi peruzzi quittnat rossini starodumov takahashi tavolaro theofilatos wallny weber aarrestad amsler canelli chiochia cosa galloni hinz mann hreus kilminster lange ngadiuba pinna robmann ronga salerno taroni cardaci doan ferro konyushikhin volpe chang chang chang chao dietz fiori grundler hsiung moya petrakou tsai tzeng wilken asavapibhop kovitanggoon singh srimanobhas suwonjandee adiguzel bakirci dozen dumanoglu eskut girgis gokbulut guler gurpinar kangal onengut ozdemir polatoz cerci vergili zorbilmez akin bilin bilmis isildak karapinar surat yalvac zeyrek albayrak gulmez kaya kaya yetkin cankocak gunaydin vardarh grynyov levchuk sorokin aggleton ball beck brooke clement cussans flacher gold stein grimes heath heath jacob kreczko lucas meng newbold paramesvaran poll sakuma nasr storey senkin bell belyaev brew brown cockerill coughlan harder harper olaiya petyt shepherd themistocleous thea tomalin williams womersley worm baber bainbridge buchmuller bundock burton citron colling corpe cripps dauncey davies della negra dunne elwood ferguson fulcher futyan hall iles karapostoli kenzie lane lucas lyons magnan malik nash nikitenko pela pesaresi petridis raymond richards rose seez sharp tapper uchida acosta virdee zenz cole hobson khan kyberd leggat leslie reid symonds teodorescu turner borzou dittmann hatakeyama kasmi pastika scarborough charaf cooper henderson rumerio avetisyan bose fantasia gastler lawson rankin richardson rohlf john sulak alimena berry bhattacharya cutts demiragli dhingra ferapon garabedian heintz laird landsberg narain sagir sinthuprasith breedon breto sanchez mcdlb chauhan chertok conway erbacher gardner lander mulhearn pellett pilot ricci shalhout squires stolp tripathi wilbur yohay cousins everaerts farrell hauser ignatenko rakness saltzberg takasugi valuev weber burt clare ellison gary hanson heilman rikova jandir kennedy lacroix luthra malberti negrete shrinivas sumowidagdo wimpenny branson cerati cittolin agnolo holzner kelley klein kovalskyi letts macneill olivito padhi pieri sani sharma simon tadel vartak wasserbaech welke wiirthwein yagil della porta barge bradmiller feld campagnari dishaw dutta flowers sevilla geffert george golf gouskos gran incandela justus mccoll | non_dup | [] |
55640072 | 10.1007/jhep10(2015)150 | An analysis is presented of events containing jets including at least one b-tagged jet, sizeable missing transverse momentum, and at least two leptons including a pair of the same electric charge, with the scalar sum of the jet and lepton transverse momenta being large. A data sample with an integrated luminosity of 20.3 fb−1 of pp collisions at s√=8 TeV recorded by the ATLAS detector at the Large Hadron Collider is used. Standard Model processes rarely produce these final states, but there are several models of physics beyond the Standard Model that predict an enhanced rate of production of such events; the ones considered here are production of vector-like quarks, enhanced four-top-quark production, pair production of chiral b′-quarks, and production of two positively charged top quarks. Eleven signal regions are defined; subsets of these regions are combined when searching for each class of models. In the three signal regions primarily sensitive to positively charged top quark pair production, the data yield is consistent with the background expectation. There are more data events than expected from background in the set of eight signal regions defined for searching for vector-like quarks and chiral b′-quarks, but the significance of the discrepancy is less than two standard deviations. The discrepancy reaches 2.5 standard deviations in the set of five signal regions defined for searching for four-top-quark production. The results are used to set 95% CL limits on various models.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF, DNSRC and Lundbeck Foundation, Denmark; EPLANET, ERC and NSRF, European Union; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, DFG, HGF, MPG and AvH Foundation, Germany; GSRT and NSRF, Greece; RGC, Hong Kong SAR, China; ISF, MINERVA, GIF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; BRF and RCN, Norway; MNiSW and NCN, Poland; GRICES and FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MSTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SER, SNSF and Cantons of Bern and Geneva, Switzerland; NSC, Taiwan; TAEK, Turkey; STFC, the Royal Society and Leverhulme Trust, United Kingdom; DOE and NSF, United States of America | Analysis of events with b-jets and a pair of leptons of the same charge in pp collisions at √s=8 TeV with the ATLAS detector | analysis of events with b-jets and a pair of leptons of the same charge in pp collisions at √s=8 tev with the atlas detector | jets tagged sizeable missing leptons lepton momenta large. luminosity collisions atlas hadron collider used. rarely predict quarks chiral quarks positively quarks. eleven subsets searching models. primarily positively expectation. eight searching quarks chiral quarks discrepancy deviations. discrepancy reaches deviations searching production. models.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc lundbeck foundation denmark eplanet nsrf union cnrs irfu gnsf georgia bmbf foundation gsrt nsrf greece hong kong minerva benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland grices portugal romania russia russian federation jinr mstd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden snsf cantons bern geneva switzerland taiwan taek turkey stfc royal leverhulme trust kingdom america | non_dup | [] |
143977421 | 10.1007/jhep10(2017)112 | This article presents searches for the Zγ decay of the Higgs boson and for narrow high-mass resonances decaying to Zγ, exploiting Z boson decays to pairs of electrons or muons. The data analysis uses 36.1 fb−1 of pp collisions at s√=13 recorded by the ATLAS detector at the CERN Large Hadron Collider. The data are found to be consistent with the expected Standard Model background. The observed (expected — assuming Standard Model pp → H → Zγ production and decay) upper limit on the production cross section times the branching ratio for pp → H → Zγ is 6.6. (5.2) times the Standard Model prediction at the 95% confidence level for a Higgs boson mass of 125.09 GeV. In addition, upper limits are set on the production cross section times the branching ratio as a function of the mass of a narrow resonance between 250 GeV and 2.4 TeV, assuming spin-0 resonances produced via gluon-gluon fusion, and spin-2 resonances produced via gluon-gluon or quark-antiquark initial states. For high-mass spin-0 resonances, the observed (expected) limits vary between 88 fb (61 fb) and 2.8 fb (2.7 fb) for the mass range from 250 GeV to 2.4 TeV at the 95% confidence level.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CSA, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF and DNSRC, Denmark; IN2P3-CNRS, CEA-DSM/IRFU, France; SRNSF, Georgia; BMBF, HGF, and MPG, Germany; GSRT, Greece; RGC, Hong Kong SAR, China; ISF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; NWO, Netherlands; RCN, Norway; MNiSW and NCN, Poland; FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MESTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SERI, SNSF and Cantons of Bern and Geneva, Switzerland; MOST, Taiwan; TAEK, Turkey; STFC, United Kingdom; DOE and NSF, United States of America. In addition, individual groups and members have received support from BCKDF, the Canada Council, CANARIE, CRC, Compute Canada, FQRNT, and the Ontario Innovation Trust, Canada; EPLANET, ERC, ERDF, FP7, Horizon 2020 and Marie Sklodowska-Curie Actions, European Union; Investissements d'Avenir Labex and Idex, ANR, Region Auvergne and Fondation Partager le Savoir, France; DFG and AvH Foundation, Germany; Herakleitos, Thales and Aristeia programmes co-financed by EU-ESF and the Greek NSRF; BSF, GIF and Minerva, Israel; BRF, Norway; CERCA Programme Generalitat de Catalunya, Generalitat Valenciana, Spain; the Royal Society and Leverhulme Trust, United Kingdom.info:eu-repo/semantics/publishedVersio | Searches for the Zγ decay mode of the Higgs boson and for new high-mass resonances in pp collisions at s√=13 TeV with the ATLAS detector | searches for the zγ decay mode of the higgs boson and for new high-mass resonances in pp collisions at s√=13 tev with the atlas detector | presents searches boson narrow resonances decaying exploiting boson decays muons. collisions atlas cern hadron collider. background. branching confidence boson gev. branching narrow resonances gluon gluon fusion resonances gluon gluon antiquark states. resonances vary confidence level.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc denmark cnrs irfu srnsf georgia bmbf gsrt greece hong kong benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland portugal romania russia russian federation jinr mestd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden seri snsf cantons bern geneva switzerland taiwan taek turkey stfc kingdom america. bckdf canada council canarie canada fqrnt ontario innovation trust canada eplanet erdf horizon marie sklodowska curie union investissements avenir labex idex auvergne fondation partager savoir foundation herakleitos thales aristeia programmes financed greek nsrf minerva israel norway cerca programme generalitat catalunya generalitat valenciana spain royal leverhulme trust kingdom.info repo semantics publishedversio | non_dup | [] |
143977425 | 10.1007/jhep10(2017)129 | This article presents a search for flavour-changing neutral currents in the decay of a top quark into an up-type (q = c, u) quark and a Higgs boson, where the Higgs boson decays into two photons. The proton-proton collision data set analysed amounts to 36.1 fb−1 at s√=13 TeV collected by the ATLAS experiment at the LHC. Top quark pair events are searched for, where one top quark decays into qH and the other decays into bW . Both the hadronic and leptonic decay modes of the W boson are used. No significant excess is observed and an upper limit is set on the t → cH branching ratio of 2.2 × 10−3 at the 95% confidence level, while the expected limit in the absence of signal is 1.6 × 10−3. The corresponding limit on the tcH coupling is 0.090 at the 95% confidence level. The observed upper limit on the t → uH branching ratio is 2.4 × 10−3.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF and DNSRC, Denmark; IN2P3-CNRS, CEA-DSM/IRFU, France; SRNSF, Georgia; BMBF, HGF, and MPG, Germany; GSRT, Greece; RGC, Hong Kong SAR, China; ISF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; NWO, Netherlands; RCN, Norway; MNiSW and NCN, Poland; FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MESTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SERI, SNSF and Cantons of Bern and Geneva, Switzerland; MOST, Taiwan; TAEK, Turkey; STFC, United Kingdom; DOE and NSF, United States of America. In addition, individual groups and members have received support from BCKDF, the Canada Council, CANARIE, CRC, Compute Canada, FQRNT, and the Ontario Innovation Trust, Canada; EPLANET, ERC, ERDF, FP7, Horizon 2020 and Marie Sk lodowska-Curie Actions, European Union; Investissements d'Avenir Labex and Idex, ANR, Region Auvergne and Fondation Partager le Savoir, France; DFG and AvH Foundation, Germany; Herakleitos, Thales and Aristeia programmes co-financed by EU-ESF and the Greek NSRF; BSF, GIF and Minerva, Israel; BRF, Norway; CERCA Programme Generalitat de Catalunya, Generalitat Valenciana, Spain; the Royal Society and Leverhulme Trust, United Kingdom.info:eu-repo/semantics/publishedVersio | Search for top quark decays t → qH, with H → γγ, in s√=13 TeV pp collisions using the ATLAS detector | search for top quark decays t → qh, with h → γγ, in s√=13 tev pp collisions using the atlas detector | presents flavour changing neutral currents boson boson decays photons. proton proton collision analysed amounts atlas lhc. searched decays decays hadronic leptonic boson used. excess branching confidence confidence level. branching acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc denmark cnrs irfu srnsf georgia bmbf gsrt greece hong kong benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland portugal romania russia russian federation jinr mestd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden seri snsf cantons bern geneva switzerland taiwan taek turkey stfc kingdom america. bckdf canada council canarie canada fqrnt ontario innovation trust canada eplanet erdf horizon marie lodowska curie union investissements avenir labex idex auvergne fondation partager savoir foundation herakleitos thales aristeia programmes financed greek nsrf minerva israel norway cerca programme generalitat catalunya generalitat valenciana spain royal leverhulme trust kingdom.info repo semantics publishedversio | non_dup | [] |
143977424 | 10.1007/jhep10(2017)132 | Inclusive and differential fiducial cross sections of Higgs boson production in proton-proton collisions are measured in the H → ZZ* → 4ℓ decay channel. The proton-proton collision data were produced at the Large Hadron Collider at a centre-of-mass energy of 13 TeV and recorded by the ATLAS detector in 2015 and 2016, corresponding to an integrated luminosity of 36.1 fb−1. The inclusive fiducial cross section in the H → ZZ* → 4ℓ decay channel is measured to be 3.62 ± 0.50(stat)− 0.20+ 0.25 (sys) fb, in agreement with the Standard Model prediction of 2.91 ± 0.13 fb. The cross section is also extrapolated to the total phase space including all Standard Model Higgs boson decays. Several differential fiducial cross sections are measured for observables sensitive to the Higgs boson production and decay, including kinematic distributions of jets produced in association with the Higgs boson. Good agreement is found between data and Standard Model predictions. The results are used to put constraints on anomalous Higgs boson interactions with Standard Model particles, using the pseudo-observable extension to the kappa-framework.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF and DNSRC, Denmark; IN2P3-CNRS, CEA-DSM/IRFU, France; SRNSF, Georgia; BMBF, HGF, and MPG, Germany; GSRT, Greece; RGC, Hong Kong SAR, China; ISF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; NWO, Netherlands; RCN, Norway; MNiSW and NCN, Poland; FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MESTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SERI, SNSF and Cantons of Bern and Geneva, Switzerland; MOST, Taiwan; TAEK, Turkey; STFC, United Kingdom; DOE and NSF, United States of America. In addition, individual groups and members have received support from BCKDF, the Canada Council, CANARIE, CRC, Compute Canada, FQRNT, and the Ontario Innovation Trust, Canada; EPLANET, ERC, ERDF, FP7, Horizon 2020 and Marie Sklodowska-Curie Actions, European Union; Investissements d'Avenir Labex and Idex, ANR, Region Auvergne and Fondation Partager le Savoir, France; DFG and AvH Foundation, Germany; Herakleitos, Thales and Aristeia programmes co-financed by EU-ESF and the Greek NSRF; BSF, GIF and Minerva, Israel; BRF, Norway; CERCA Programme Generalitat de Catalunya, Generalitat Valenciana, Spain; the Royal Society and Leverhulme Trust, United Kingdom.info:eu-repo/semantics/publishedVersio | Measurement of inclusive and differential cross sections in the H → ZZ* → 4ℓ decay channel in pp collisions at s√=13 TeV with the ATLAS detector | measurement of inclusive and differential cross sections in the h → zz* → 4ℓ decay channel in pp collisions at s√=13 tev with the atlas detector | inclusive fiducial boson proton proton collisions channel. proton proton collision hadron collider atlas luminosity inclusive fiducial stat extrapolated boson decays. fiducial observables boson kinematic jets boson. predictions. anomalous boson pseudo observable kappa framework.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc denmark cnrs irfu srnsf georgia bmbf gsrt greece hong kong benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland portugal romania russia russian federation jinr mestd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden seri snsf cantons bern geneva switzerland taiwan taek turkey stfc kingdom america. bckdf canada council canarie canada fqrnt ontario innovation trust canada eplanet erdf horizon marie sklodowska curie union investissements avenir labex idex auvergne fondation partager savoir foundation herakleitos thales aristeia programmes financed greek nsrf minerva israel norway cerca programme generalitat catalunya generalitat valenciana spain royal leverhulme trust kingdom.info repo semantics publishedversio | non_dup | [] |
143977417 | 10.1007/jhep10(2017)141 | A search is presented for the pair production of heavy vector-like T quarks, primarily targeting the T quark decays to a W boson and a b-quark. The search is based on 36.1 fb−1 of pp collisions at s√=13 TeV recorded in 2015 and 2016 with the ATLAS detector at the CERN Large Hadron Collider. Data are analysed in the lepton-plus-jets final state, including at least one b-tagged jet and a large-radius jet identified as originating from the hadronic decay of a high-momentum W boson. No significant deviation from the Standard Model expectation is observed in the reconstructed T mass distribution. The observed 95% confidence level lower limit on the T mass are 1350 GeV assuming 100% branching ratio to Wb. In the SU(2) singlet scenario, the lower mass limit is 1170 GeV. This search is also sensitive to a heavy vector-like B quark decaying to Wt and other final states. The results are thus reinterpreted to provide a 95% confidence level lower limit on the B quark mass at 1250 GeV assuming 100% branching ratio to Wt; in the SU(2) singlet scenario, the limit is 1080 GeV. Mass limits on both T and B production are also set as a function of the decay branching ratios. The 100% branching ratio limits are found to be applicable to heavy vector-like Y and X production that decay to Wb and Wt, respectively.ANAS -Arizona-Nevada Academy of Science(IN2P3-CNRS)info:eu-repo/semantics/publishedVersio | Search for pair production of heavy vector-like quarks decaying to high-p T W bosons and b quarks in the lepton-plus-jets final state in pp collisions at √s=13 TeV with the ATLAS detector | search for pair production of heavy vector-like quarks decaying to high-p t w bosons and b quarks in the lepton-plus-jets final state in pp collisions at √s=13 tev with the atlas detector | quarks primarily targeting decays boson quark. collisions atlas cern hadron collider. analysed lepton jets tagged originating hadronic boson. expectation reconstructed distribution. confidence branching singlet gev. decaying states. reinterpreted confidence branching singlet gev. branching ratios. branching applicable respectively.anas arizona nevada academy cnrs info repo semantics publishedversio | non_dup | [] |
143977414 | 10.1007/jhep10(2017)182 | A search is conducted for new resonant and non-resonant high-mass phenomena in dielectron and dimuon final states. The search uses 36.1 fb−1 of proton-proton collision data, collected at s√=13 TeV by the ATLAS experiment at the LHC in 2015 and 2016. No significant deviation from the Standard Model prediction is observed. Upper limits at 95% credibility level are set on the cross-section times branching ratio for resonances decaying into dileptons, which are converted to lower limits on the resonance mass, up to 4.1 TeV for the E6-motivated Zχ′. Lower limits on the qqℓℓ contact interaction scale are set between 2.4 TeV and 40 TeV, depending on the model.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF and DNSRC, Denmark; IN2P3-CNRS, CEA-DSM/IRFU, France; SRNSF, Georgia; BMBF, HGF, and MPG, Germany; GSRT, Greece; RGC, Hong Kong SAR, China; ISF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; NWO, Netherlands; RCN, Norway; MNiSW and NCN, Poland; FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MESTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SERI, SNSF and Cantons of Bern and Geneva, Switzerland; MOST, Taiwan; TAEK, Turkey; STFC, United Kingdom; DOE and NSF, United States of America. In addition, individual groups and members have received support from BCKDF, the Canada Council, CANARIE, CRC, Compute Canada, FQRNT, and the Ontario Innovation Trust, Canada; EPLANET, ERC, ERDF, FP7, Horizon 2020 and Marie Sklodowska-Curie Actions, European Union; Investissements d'Avenir Labex and Idex, ANR, Region Auvergne and Fondation Partager le Savoir, France; DFG and AvH Foundation, Germany; Herakleitos, Thales and Aristeia programmes co-financed by EU-ESF and the Greek NSRF; BSF, GIF and Minerva, Israel; BRF, Norway; CERCA Programme Generalitat de Catalunya, Generalitat Valenciana, Spain; the Royal Society and Leverhulme Trust, United Kingdom.info:eu-repo/semantics/publishedVersio | Search for new high-mass phenomena in the dilepton final state using 36 fb(-1) of proton-proton collision data at root s=13 TeV with the ATLAS detector | search for new high-mass phenomena in the dilepton final state using 36 fb(-1) of proton-proton collision data at root s=13 tev with the atlas detector | resonant resonant phenomena dielectron dimuon states. proton proton collision atlas observed. credibility branching resonances decaying dileptons converted motivated zχ′. qqℓℓ model.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc denmark cnrs irfu srnsf georgia bmbf gsrt greece hong kong benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland portugal romania russia russian federation jinr mestd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden seri snsf cantons bern geneva switzerland taiwan taek turkey stfc kingdom america. bckdf canada council canarie canada fqrnt ontario innovation trust canada eplanet erdf horizon marie sklodowska curie union investissements avenir labex idex auvergne fondation partager savoir foundation herakleitos thales aristeia programmes financed greek nsrf minerva israel norway cerca programme generalitat catalunya generalitat valenciana spain royal leverhulme trust kingdom.info repo semantics publishedversio | non_dup | [] |
6083934 | 10.1007/jhep11(2010)016 | We present a simple systematic method to study candidate counterterms in =8 supergravity. Complicated details of the counterterm operators are avoided because we work with the on-shell matrix elements they produce. All n-point matrix elements of an independent SUSY invariant operator of the form D 2k R n+... must be local and satisfy SUSY Ward identities. These are strong constraints, and we test directly whether or not matrix elements with these properties can be constructed. If not, then the operator does not have a supersymmetrization, and it is excluded as a potential counterterm. For n> 4, we find that R n, D 2 R n, D 4 R n, and D 6 R n are excluded as counterterms of MHV amplitudes, while only R n and D 2 R n are excluded at the NMHV level. As a consequence, for loop order L<7, there are no independent D 2k R n counterterms with n>4. If an operator is not ruled out, our method constructs an explicit superamplitude for its matrix elements. This is done for the 7-loop D 4 R 6 operator at the NMHV level and in other cases. We also initiate the study of counterterms without leading pure-graviton matrix elements, which can occur beyond the MHV level. The landscape of excluded/ allowed candidate counterterms is summarized in a colorful chart.United States. Dept. of Energy (grant DE-FG02- 95ER40899 )National Science Foundation (U.S.) (NSF grant PHY-0503584)National Science Foundation (U.S.) (grant No. PHY-0600465)United States. Dept. of Energy (cooperative research agreement DE-FG-0205FR41360)National Science Foundation (U.S.) (NSF grant PHY-0756966 | A simple approach to counterterms in N=8 supergravity | a simple approach to counterterms in n=8 supergravity | candidate counterterms supergravity. complicated counterterm avoided produce. susy satisfy susy ward identities. constructed. supersymmetrization excluded counterterm. excluded counterterms amplitudes excluded nmhv level. counterterms ruled constructs superamplitude elements. nmhv cases. initiate counterterms graviton level. landscape excluded candidate counterterms summarized colorful chart.united states. dept. foundation u.s. foundation u.s. states. dept. cooperative foundation u.s. | non_dup | [] |
9066673 | 10.1007/jhep11(2011)145 | We introduce a novel composite Higgs theory based on con ning supersymmetric
QCD. Supersymmetric duality plays a key role in this construction, with a "fat"
Higgs boson emerging as a dual magnetic degree of freedom charged under the dual magnetic
gauge group. Due to spontaneous color-
avor locking in the infrared, the electroweak
gauge symmetry is aligned with the dual magnetic gauge group, allowing large Yukawa couplings
between elementary matter elds and the composite Higgs. At the same time, this
theory exhibits metastable supersymmetry breaking, leading to low-scale gauge mediation
via composite messengers. The Higgs boson is heavier than in minimal supersymmetric
theories, due to non-decoupling D-terms and a large F-term quartic coupling. This theory
predicts quasi-stable TeV-scale pseudo-modulini, some of which are charged under standard
model color, possibly giving rise to long-lived R-hadrons at the LHC.United States. Dept. of Energy (cooperative research agreement DE-FG02-05ER41360 | A fat Higgs with a magnetic personality | a fat higgs with a magnetic personality | composite ning supersymmetric qcd. supersymmetric duality plays boson emerging freedom group. spontaneous avor locking infrared electroweak aligned allowing yukawa couplings elementary elds composite higgs. exhibits metastable supersymmetry breaking mediation composite messengers. boson heavier supersymmetric decoupling quartic coupling. predicts quasi pseudo modulini possibly giving lived hadrons lhc.united states. dept. cooperative | non_dup | [] |
20024988 | 10.1007/jhep11(2011)148 | The energy flow, dE/dη, is studied at large pseudorapidities in proton-proton collisions at the LHC, for centre-of-mass energies of 0.9 and 7 TeV. The measurements are made using the CMS detector in the pseudorapidity range 3.15 < |η| < 4.9, for both minimum-bias events and events with at least two high-momentum jets. The data are compared to various pp Monte Carlo event generators whose theoretical models and input parameter values are sensitive to the energy-flow measurements. Inclusion of multiple-parton interactions in the Monte Carlo event generators is found to improve the description of the energy-flow measurements.United States. Dept. of EnergyNational Science Foundation (U.S.)Alfred P. Sloan Foundatio | Measurement of energy flow at large pseudorapidities in pp collisions at √s = 0.9 and 7 TeV | measurement of energy flow at large pseudorapidities in pp collisions at √s = 0.9 and 7 tev | pseudorapidities proton proton collisions tev. pseudorapidity jets. monte carlo generators measurements. inclusion parton monte carlo generators measurements.united states. dept. energynational foundation u.s. alfred sloan foundatio | non_dup | [] |
30898600 | 10.1007/jhep11(2012)011 | We present a phenomenological study of a CP-violating two-Higgs-doublet
Model with type-II Yukawa couplings at the Large Hadron Collider (LHC). In the light
of recent LHC data, we focus on the parameter space that survives the current and past
experimental constraints as well as theoretical bounds on the model. Once the phenomenological
scenario is set, we analyse the scope of the LHC in exploring this model through
the discovery of a charged Higgs boson produced in association with a W boson, with the
former decaying into the lightest neutral Higgs and a second W state, altogether yielding
a b¯bW+W− signature, of which we exploit the W+W− semileptonic decays | Probing the charged Higgs boson at the LHC in the CP-violating type-II 2HDM | probing the charged higgs boson at the lhc in the cp-violating type-ii 2hdm | phenomenological violating doublet yukawa couplings hadron collider survives bounds model. phenomenological analyse scope exploring discovery boson boson former decaying lightest neutral altogether yielding b¯bw signature exploit semileptonic decays | non_dup | [] |
16413305 | 10.1007/jhep11(2012)134 | The LHC experiments ATLAS and CMS have discovered a new boson that resembles the long-sought Higgs boson: it cannot have spin one, and has couplings to other particles that increase with their masses, but the spin and parity remain to be determined. We show here that the `Higgs' + gauge boson invariant-mass distribution in `Higgs'-strahlung events at the Tevatron or the LHC would be very different under the J P = 0+;0 and 2+ hypotheses. Our analysis is based on simulations of the experimental event selections and cuts using PYTHIA and Delphes, and incorporates statistical samples of `toy' experiments. The observation of `Higgs'-strahlung at the Tevatron and the expected peaking of backgrounds at low invariant masses suggest that this process could provide a fast-track indicator of the `Higgs' spin and parity | A fast track towards the `Higgs' spin and parity | a fast track towards the `higgs' spin and parity | atlas discovered boson resembles sought boson couplings parity determined. boson strahlung tevatron hypotheses. selections cuts pythia delphes incorporates experiments. strahlung tevatron peaking backgrounds track indicator parity | non_dup | [] |
20024927 | 10.1007/jhep11(2012)138 | The ATLAS detector at the Large Hadron Collider is used to search for high-mass resonances decaying to an electron-positron pair or a muon-antimuon pair. The search is sensitive to heavy neutral Z′ gauge bosons, Randall-Sundrum gravitons, Z [superscript *] bosons, techni-mesons, Kaluza-Klein Z/γ bosons, and bosons predicted by Torsion models. Results are presented based on an analysis of pp collisions at a center-of-mass energy of 7 TeV corresponding to an integrated luminosity of 4.9 fb[superscript −1] in the e [superscript +] e [superscript −] channel and 5.0 fb[superscript −1] in the μ [superscript +] μ [superscript −] channel. A Z [superscript ′] boson with Standard Model-like couplings is excluded at 95% confidence level for masses below 2.22 TeV. A Randall-Sundrum graviton with coupling k/[¯ over M][subscript Pl] = 0.1 is excluded at 95% confidence level for masses below 2.16 TeV. Limits on the other models are also presented, including Technicolor and Minimal Z′ Models.United States. Dept. of EnergyNational Science Foundation (U.S.)Brookhaven National Laborator | Search for high-mass resonances decaying to dilepton final states in pp collisions at √s =7 TeV with the ATLAS detector | search for high-mass resonances decaying to dilepton final states in pp collisions at √s =7 tev with the atlas detector | atlas hadron collider resonances decaying positron muon antimuon pair. neutral bosons randall sundrum gravitons superscript bosons techni mesons kaluza klein bosons bosons torsion models. collisions luminosity superscript superscript superscript superscript superscript superscript channel. superscript boson couplings excluded confidence tev. randall sundrum graviton subscript excluded confidence tev. technicolor models.united states. dept. energynational foundation u.s. brookhaven laborator | non_dup | [] |
42629454 | 10.1007/jhep11(2013)017 | We generalize previous results on N = 1, (3 + 1)-dimensional superconformal block quiver gauge theories. It is known that the necessary conditions for a theory to be superconformal, i.e. that the beta and gamma functions vanish in addition to anomaly cancellation, translate to a Diophantine equation in terms of the quiver data. We re-derive results for low block numbers revealing an new intriguing algebraic structure underlying a class of possible superconformal fixed points of such theories. After explicitly computing the five block case Diophantine equation, we use this structure to reorganize the result in a form that can be applied to arbitrary block numbers. We argue that these theories can be thought of as vectors in the root system of the corresponding quiver and superconformality conditions are shown to associate them to certain subsets of imaginary roots. These methods also allow for an interpretation of Seiberg duality as the action of the affine Weyl group on the root lattice | Superconformal Block Quivers, Duality Trees and Diophantine Equations | superconformal block quivers, duality trees and diophantine equations | generalize superconformal quiver theories. superconformal i.e. beta gamma vanish anomaly cancellation translate diophantine quiver data. derive revealing intriguing algebraic superconformal theories. explicitly diophantine reorganize numbers. argue thought quiver superconformality associate subsets imaginary roots. seiberg duality affine weyl | non_dup | [] |
55632555 | 10.1007/jhep11(2013)031 | A measurement of the top quark electric charge is carried out in the ATLAS
experiment at the Large Hadron Collider using 2.05 fb−1 of data at a centre-of-mass energy
of 7 TeV. In units of the elementary electric charge, the top quark charge is determined to
be 0.64 ± 0.02 (stat.) ± 0.08 (syst.) from the charges of the top quark decay products
in single lepton tt¯ candidate events. This excludes models that propose a heavy quark of
electric charge –4/3, instead of the Standard Model top quark, with a significance of more
than 8σ.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWF and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF, DNSRC and Lundbeck Foundation, Denmark; EPLANET, ERC and NSRF, European Union; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, DFG, HGF, MPG and AvH Foundation, Germany; GSRT and NSRF, Greece; ISF, MINERVA, GIF, DIP and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; BRF and RCN, Norway; MNiSW, Poland; GRICES and FCT, Portugal; MERYS (MECTS), Romania; MES of Russia and ROSATOM, Russian Federation; JINR; MSTD, Serbia; MSSR, Slovakia; ARRS and MIZ. S, Slovenia; DST/NRF, South Africa; MICINN, Spain; SRC and Wallenberg Foundation, Sweden; SER, SNSF and Cantons of Bern and Geneva, Switzerland; NSC, Taiwan; TAEK, Turkey; STFC, the Royal Society and Leverhulme Trust, United Kingdom; DOE and NSF, U.S.A | Measurement of the top quark charge in pp collisions at s√= 7 TeV with the ATLAS detector | measurement of the top quark charge in pp collisions at s√= 7 tev with the atlas detector | atlas hadron collider tev. elementary stat. syst. charges lepton candidate events. excludes propose σ.we acknowledge anpcyt argentina yerphi armenia australia bmwf austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc lundbeck foundation denmark eplanet nsrf union cnrs irfu gnsf georgia bmbf foundation gsrt nsrf greece minerva benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland grices portugal merys mects romania russia rosatom russian federation jinr mstd serbia mssr slovakia arrs miz. slovenia africa micinn spain wallenberg foundation sweden snsf cantons bern geneva switzerland taiwan taek turkey stfc royal leverhulme trust kingdom u.s.a | non_dup | [] |
20024897 | 10.1007/jhep11(2013)161 | The discovery of a standard-model-like Higgs at 126 GeV and the absence of squark signals thus far at the LHC both point towards a mini-split spectrum for supersymmetry. Within standard paradigms, it is non-trivial to realize a mini-split spectrum with heavier sfermions but lighter gauginos while simultaneously generating Higgs sector soft terms of the correct magnitude, suggesting the need for new models of supersymmetry breaking and mediation. In this paper, we present a new approach to mini-split model building based on gauge mediation by “auxiliary groups”, which are the anomaly-free continuous symmetries of the standard model in the limit of vanishing Yukawa couplings. In addition to the well-known flavor SU(3) [subscript F] and baryon-minus-lepton U(1) [subscript B−L] groups, we find that an additional U(1) [subscript H] acting on the Higgs doublets alone can be used to generate Higgs soft masses and B-terms necessary for a complete model of mini-split. Auxiliary gauge mediation is a special case of Higgsed gauge mediation, and we review the resulting two-loop scalar soft terms as well as three-loop gaugino masses. Along the way, we present a complete two-loop calculation of A-terms and B-terms in gauge mediation, which — contrary to a common misconception — includes a non-zero contribution at the messenger threshold which can be sizable in models with light gauginos. We present several phenomenologically acceptable mini-split spectra arising from auxiliary gauge mediation and highlight a complete minimal model which realizes the required spectrum and Higgs sector soft terms with a single U(1) [subscript X] auxiliary gauge symmetry. We discuss possible experimental consequences.United States. Dept. of Energy (Cooperative Research Agreement DE-FG02-05ER-41360)National Science Foundation (U.S.). Graduate Research Fellowship ProgramSimons Foundation (Postdoctoral Fellowship)United States. Dept. of Energy (Early Career Research Program DE-FG02-11ER-41741 | Auxiliary gauge mediation: a new route to mini-split supersymmetry | auxiliary gauge mediation: a new route to mini-split supersymmetry | discovery squark mini split supersymmetry. paradigms trivial realize mini split heavier sfermions lighter gauginos simultaneously generating supersymmetry breaking mediation. mini split mediation “auxiliary groups” anomaly symmetries vanishing yukawa couplings. flavor subscript baryon minus lepton subscript subscript acting doublets mini split. auxiliary mediation higgsed mediation gaugino masses. mediation contrary misconception messenger sizable gauginos. phenomenologically acceptable mini split arising auxiliary mediation highlight realizes subscript auxiliary symmetry. consequences.united states. dept. cooperative foundation u.s. graduate fellowship programsimons foundation postdoctoral fellowship states. dept. career | non_dup | [] |
30898673 | 10.1007/jhep11(2014)056 | A search for the neutral Higgs bosons predicted by the Minimal Supersymmetric
Standard Model (MSSM) is reported. The analysis is performed on data from
proton-proton collisions at a centre-of-mass energy of 8TeV collected with the ATLAS
detector at the Large Hadron Collider. The samples used for this search were collected in
2012 and correspond to integrated luminosities in the range 19.5–20.3 fb−1. The MSSM
Higgs bosons are searched for in the τ τ final state. No significant excess over the expected
background is observed, and exclusion limits are derived for the production cross section
times branching fraction of a scalar particle as a function of its mass. The results are also
interpreted in the MSSM parameter space for various benchmark scenarios | Search for neutral Higgs bosons of the minimal supersymmetric standard model in pp collisions at √s= TeV with the ATLAS detector | search for neutral higgs bosons of the minimal supersymmetric standard model in pp collisions at √s= tev with the atlas detector | neutral bosons supersymmetric mssm reported. proton proton collisions atlas hadron collider. luminosities mssm bosons searched state. excess exclusion branching mass. interpreted mssm benchmark scenarios | non_dup | [] |
78057839 | 10.1007/jhep11(2014)075 | We investigate α′ corrections of bosonic strings in the framework of double field theory. The previously introduced “doubled α′-geometry” gives α′-deformed gauge transformations arising in the Green-Schwarz anomaly cancellation mechanism but does not apply to bosonic strings. These require a different deformation of the duality-covariantized Courant bracket which governs the gauge structure. This is revealed by examining the α′ corrections in the gauge algebra of closed string field theory. We construct a four-derivative cubic double field theory action invariant under the deformed gauge transformations, giving a first glimpse of the gauge principle underlying bosonic string α′ corrections. The usual metric and b-field are related to the duality covariant fields by non-covariant field redefinitions.United States. Dept. of Energy (Cooperative Research Agreement DE-FG02-05ER41360)German Science Foundation (Heisenberg Fellowship | Double field theory at order α′ | double field theory at order α′ | bosonic strings theory. “doubled geometry” deformed transformations arising schwarz anomaly cancellation bosonic strings. deformation duality covariantized courant bracket governs structure. examining theory. cubic deformed transformations giving glimpse bosonic corrections. usual duality covariant covariant redefinitions.united states. dept. cooperative german foundation heisenberg fellowship | non_dup | [] |
30862554 | 10.1007/jhep11(2014)084 | In Two-Higgs-Doublet models, the conditions for CP violation can be ex-
pressed in terms of invariants under U(2) rotations among the two SU(2) Higgs doublet
fields. In order to design a strategy for measuring the invariants we express them in terms
of observables, i.e., masses and couplings of scalar bosons. We find amplitudes directly sen-
sitive to the invariants. Observation of the Standard-Model-like Higgs boson at the LHC
severely constrains the models. In particular, in the model with Z₂ symmetry imposed on
dimension-4 terms (in order to eliminate tree-level flavour-changing neutral currents), CP
violation is strongly suppressed. On the other hand, the most general Two-Higgs-Doublet model (without Z₂ symmetry) is compatible with the LHC data, and would still allow for CP violation to be present in the model. Consequently, also flavour-changing neutral
currents would in general be expected. We briefly sketch a strategy for measuring the
remaining CP violation | Measuring CP violation in two-Higgs-doublet models in light of the LHC Higgs data | measuring cp violation in two-higgs-doublet models in light of the lhc higgs data | doublet violation pressed invariants rotations doublet fields. measuring invariants express observables i.e. couplings bosons. amplitudes sitive invariants. boson severely constrains models. imposed eliminate flavour changing neutral currents violation suppressed. doublet compatible violation model. flavour changing neutral currents expected. briefly sketch measuring violation | non_dup | [] |
30862552 | 10.1007/jhep11(2014)088 | Several models of physics beyond the Standard Model predict neutral particles that decay into final states consisting of collimated jets of light leptons and hadrons (so-called “lepton jets”). These particles can also be long-lived with decay length comparable to, or even larger than, the LHC detectors’ linear dimensions. This paper presents the results of a search for lepton jets in proton-proton collisions at the centre-of-mass energy of TeX TeV in a sample of 20.3 fb⎺¹ collected during 2012 with the ATLAS detector at the LHC. Limits on models predicting Higgs boson decays to neutral long-lived lepton jets are derived as a function of the particle’s proper decay length | Search for long-lived neutral particles decaying into lepton jets in proton-proton collisions at √s= 8TeV with the ATLAS detector | search for long-lived neutral particles decaying into lepton jets in proton-proton collisions at √s= 8tev with the atlas detector | predict neutral consisting collimated jets leptons hadrons “lepton jets” lived comparable detectors’ dimensions. presents lepton jets proton proton collisions fb⎺¹ atlas lhc. predicting boson decays neutral lived lepton jets particle’s proper | non_dup | [] |
30862553 | 10.1007/jhep11(2014)118 | The results of a search for top squark (stop) pair production in final states with one isolated lepton, jets, and missing transverse momentum are reported. The analysis is performed with proton-proton collision data at s√ = 8 TeV collected with the ATLAS detector at the LHC in 2012 corresponding to an integrated luminosity of 20 fb⎺¹. The lightest supersymmetric particle (LSP) is taken to be the lightest neutralino which only interacts weakly and is assumed to be stable. The stop decay modes considered are those to a top quark and the LSP as well as to a bottom quark and the lightest chargino, where the chargino decays to the LSP by emitting a W boson. A wide range of scenarios with different mass splittings between the stop, the lightest neutralino and the lightest chargino are considered, including cases where the W bosons or the top quarks are off-shell. Decay modes involving the heavier charginos and neutralinos are addressed using a set of phenomenological models of supersymmetry. No significant excess over the Standard Model prediction is observed. A stop with a mass between 210 and 640 GeV decaying directly to a top quark and a massless LSP is excluded at 95% confidence level, and in models where the mass of the lightest chargino is twice that of the LSP, stops are excluded at 95% confidence level up to a mass of 500 GeV for an LSP mass in the range of 100 to 150 GeV. Stringent exclusion limits are also derived for all other stop decay modes considered, and model-independent upper limits are set on the visible cross-section for processes beyond the Standard Model | Search for top squark pair production in final states with one isolated lepton, jets, and missing transverse momentum in √s = 8 TeV pp collisions with the ATLAS detector | search for top squark pair production in final states with one isolated lepton, jets, and missing transverse momentum in √s = 8 tev pp collisions with the atlas detector | squark stop lepton jets missing reported. proton proton collision atlas luminosity fb⎺¹. lightest supersymmetric lightest neutralino interacts weakly stable. stop lightest chargino chargino decays emitting boson. scenarios splittings stop lightest neutralino lightest chargino bosons quarks shell. involving heavier charginos neutralinos addressed phenomenological supersymmetry. excess observed. stop decaying massless excluded confidence lightest chargino twice stops excluded confidence gev. stringent exclusion stop visible | non_dup | [] |
78059907 | 10.1007/jhep11(2014)129 | Discriminating quark jets from gluon jets is an important but challenging problem in jet substructure. In this paper, we use the concept of mutual information to illuminate the physics of quark/gluon tagging. Ideal quark/gluon separation requires only one bit of truth information, so even if two discriminant variables are largely uncorrelated, they can still share the same “truth overlap”. Mutual information can be used to diagnose such situations, and thus determine which discriminant variables are redundant and which can be combined to improve performance. Using both parton showers and analytic resummation, we study a two-parameter family of generalized angularities, which includes familiar infrared and collinear (IRC) safe observables like thrust and broadening, as well as IRC unsafe variants like p [D over T] and hadron multiplicity. At leading-logarithmic (LL) order, the bulk of these variables exhibit Casimir scaling, such that their truth overlap is a universal function of the color factor ratio C [subscript A] [over C subscript F] . Only at next-to-leading-logarithmic (NLL) order can one see a difference in quark/gluon performance. For the IRC safe angularities, we show that the quark/gluon performance can be improved by combining angularities with complementary angular exponents. Interestingly, LL order, NLL order, Pythia 8, and Herwig++ all exhibit similar correlations between observables, but there are significant differences in the predicted quark/gluon discrimination power. For the IRC unsafe angularities, we show that the mutual information can be calculated analytically with the help of a nonperturbative “weighted-energy function”, providing evidence for the complementarity of safe and unsafe observables for quark/gluon discrimination.United States. Dept. of Energy (Cooperative Research Agreement DE-FG02-05ER-41360)Alfred P. Sloan Foundation (Sloan Research Fellowship)United States. Dept. of Energy. Office of Science (Early Career Research Program DE-FG02-11ER-41741 | Gaining (mutual) information about quark/gluon discrimination | gaining (mutual) information about quark/gluon discrimination | discriminating jets gluon jets challenging substructure. mutual illuminate gluon tagging. ideal gluon truth discriminant largely uncorrelated share “truth overlap”. mutual diagnose situations discriminant redundant performance. parton showers analytic resummation angularities familiar infrared collinear safe observables thrust broadening unsafe variants hadron multiplicity. logarithmic exhibit casimir truth overlap universal subscript subscript logarithmic gluon performance. safe angularities gluon combining angularities complementary exponents. interestingly pythia herwig exhibit observables gluon discrimination power. unsafe angularities mutual analytically nonperturbative “weighted function” complementarity safe unsafe observables gluon discrimination.united states. dept. cooperative alfred sloan foundation sloan fellowship states. dept. energy. office career | non_dup | [] |
33381577 | 10.1007/jhep11(2015)071 | Citation: Khachatryan, V., Sirunyan, A. M., Tumasyan, A., Adam, W., Asilar, E., Bergauer, T., . . . Collaboration, C. M. S. (2015). Search for neutral MSSM Higgs bosons decaying into a pair of bottom quarks. Journal of High Energy Physics(11), 1-43. doi:10.1007/jhep11(2015)071A search for neutral Higgs bosons decaying into a b (b) over bar quark pair and produced in association with at least one additional b quark is presented. This signature is sensitive to the Higgs sector of the minimal supersymmetric standard model (MSSM) with large values of the parameter tan beta. The analysis is based on data from proton-proton collisions at a center-of-mass energy of 8 TeV collected with the CMS detector at the LHC, corresponding to an integrated luminosity of 19.7 fb(-1). The results are combined with a previous analysis based on 7 TeV data. No signal is observed. Stringent upper limits on the cross section times branching fraction are derived for Higgs bosons with masses up to 900 GeV, and the results are interpreted within different MSSM benchmark scenarios, m(h)(max), m(h)(mod+), m(h)(mod-), light-stau and light-stop. Observed 95% confidence level upper limits on tan beta, ranging from 14 to 50, are obtained in the m(h)(mod+) benchmark scenario.Additional Authors: Hormann, N.;Hrubec, J.;Jeitler, M.;Knunz, V.;Konig, A.;Krammer, M.;Kratschmer, I.;Liko, D.;Matsushita, T.;Mikulec, I.;Rabady, D.;Rahbaran, B.;Rohringer, H.;Schieck, J.;Schofbeck, R.;Strauss, J.;Treberer-Treberspurg, W.;Waltenberger, W.;Wulz, C. E.;Mossolov, V.;Shumeiko, N.;Gonzalez, J. S.;Alderweireldt, S.;Cornelis, T.;De Wolf, E. A.;Janssen, X.;Knutsson, A.;Lauwers, J.;Luyckx, S.;Ochesanu, S.;Rougny, R.;Van De Klundert, M.;Van Haevermaet, H.;Van Mechelen, P.;Van Remortel, N.;Van Spilbeeck, A.;Abu Zeid, S.;Blekman, F.;D'Hondt, J.;Daci, N.;De Bruyn, I.;Deroover, K.;Heracleous, N.;Keaveney, J.;Lowette, S.;Moreels, L.;Olbrechts, A.;Python, Q.;Strom, D.;Tavernier, S.;Van Doninck, W.;Van Mulders, P.;Van Onsem, G. P.;Van Parijs, I.;Barria, P.;Caillol, C.;Clerbaux, B.;De Lentdecker, G.;Delannoy, H.;Dobur, D.;Fasanella, G.;Favart, L.;Gay, A. P. R.;Grebenyuk, A.;Lenzi, T.;Leonard, A.;Maerschalk, T.;Marinov, A.;Pernie, L.;Randle-Conde, A.;Reis, T.;Seva, T.;Velde, C. V.;Vanlaer, P.;Yonamine, R.;Zenoni, F.;Zhang, F.;Beernaert, K.;Benucci, L.;Cimmino, A.;Crucy, S.;Fagot, A.;Garcia, G.;Gul, M.;McCartin, J.;Rios, A. A. O.;Poyraz, D.;Ryckbosch, D.;Salva, S.;Sigamani, M.;Strobbe, N.;Tytgat, M.;Van Driessche, W.;Yazgan, E.;Zaganidis, N.;Basegmez, S.;Beluffi, C.;Bondu, O.;Brochet, S.;Bruno, G.;Castello, R.;Caudron, A.;Ceard, L.;Da Silveira, G. G.;Delaere, C.;Favart, D.;Forthomme, L.;Giammanco, A.;Hollar, J.;Jafari, A.;Jez, P.;Komm, M.;Lemaitre, V.;Mertens, A.;Nuttens, C.;Perrini, L.;Pin, A.;Piotrzkowski, K.;Popov, A.;Quertenmont, L.;Selvaggi, M.;Marono, M. V.;Beliy, N.;Hammad, G. H.;Alda, W. L.;Alves, G. A.;Brito, L.;Correa Martins, M.;Martins, T. D. R.;Hensel, C.;Herrera, C. M.;Moraes, A.;Pol, M. E.;Teles, P. R.;Das Chagas, E. B. B.;Carvalho, W.;Chinellato, J.;Custodio, A.;Da Costa, E. M.;Damiao, D. D. J.;Martins, C. D. O.;De Souza, S. F.;Guativa, L. M. H.;Malbouisson, H.;Figueiredo, D. M.;Mundim, L.;Nogima, H.;Da Silva, W. L. P.;Santoro, A.;Sznajder, A.;Manganote, E. J. T.;Pereira, A. V.;Ahuja, S.;Bernardes, C. A.;Santos, A. D. S.;Dogra, S.;Tomei, Trfp;Gregores, E. M.;Mercadante, P. G.;Moon, C. S.;Novaes, S. F.;Padula, S. S.;Abad, D. R.;Vargas, J. C. R.;Aleksandrov, A.;Genchev, V.;Hadjiiska, R.;Iaydjiev, P.;Piperov, S.;Rodozov, M.;Stoykova, S.;Sultanov, G.;Vutova, M.;Dimitrov, A.;Glushkov, I.;Litov, L.;Pavlov, B.;Petkov, P.;Ahmad, M.;Bian, J. G.;Chen, G. M.;Chen, H. S.;Chen, M.;Cheng, T.;Du, R.;Jiang, C. H.;Plestina, R.;Romeo, F.;Shaheen, S. M.;Tao, J.;Wang, C.;Wang, Z.;Zhang, H.;Asawatangtrakuldee, C.;Ban, Y.;Li, Q.;Liu, S.;Mao, Y.;Qian, S. J.;Wang, D.;Xu, Z.;Zou, W.;Avila, C.;Cabrera, A.;Sierra, L. F. C.;Florez, C.;Gomez, J. P.;Moreno, B. G.;Sanabria, J. C.;Godinovic, N.;Lelas, D.;Polic, D.;Puljak, I.;Antunovic, Z.;Kovac, M.;Brigljevic, V.;Kadija, K.;Luetic, J.;Sudic, L.;Attikis, A.;Mavromanolakis, G.;Mousa, J.;Nicolaou, C.;Ptochos, F.;Razis, P. A.;Rykaczewski, H.;Bodlak, M.;Finger, M.;Finger, M.;Aly, R.;El-Kkhateeb, E.;Elkafrawy, T.;Lotfy, A.;Mohamed, A.;Radi, A.;Salama, E.;Sayed, A.;Calpas, B.;Kadastik, M.;Murumaa, M.;Raidal, M.;Tiko, A.;Veelken, C.;Eerola, P.;Pekkanen, J.;Voutilainen, M.;Harkonen, J.;Karimaki, V.;Kinnunen, R.;Lampen, T.;Lassila-Perini, K.;Lehti, S.;Linden, T.;Luukka, P.;Maenpaa, T.;Peltola, T.;Tuominen, E.;Tuominiemi, J.;Tuovinen, E.;Wend-Land, L.;Talvitie, J.;Tuuva, T.;Besancon, M.;Couderc, F.;Dejardin, M.;Denegri, D.;Fabbro, B.;Faure, J. L.;Favaro, C.;Ferri, F.;Ganjour, S.;Givernaud, A.;Gras, P.;de Monchenault, G. H.;Jarry, P.;Locci, E.;Machet, M.;Malcles, J.;Rander, J.;Rosowsky, A.;Titov, M.;Zghiche, A.;Baffioni, S.;Beaudette, F.;Busson, P.;Cadamuro, L.;Chapon, E.;Charlot, C.;Dahms, T.;Davignon, O.;Filipovic, N.;Florent, A.;de Cassagnac, R. G.;Lisniak, S.;Mastrolorenzo, L.;Mine, P.;Naranjo, I. N.;Nguyen, M.;Ochando, C.;Ortona, G.;Paganini, P.;Regnard, S.;Salerno, R.;Sauvan, J. B.;Sirois, Y.;Strebler, T.;Yilmaz, Y.;Zabi, A.;Agram, J. L.;Andrea, J.;Aubin, A.;Bloch, D.;Brom, J. M.;Buttignol, M.;Chabert, E. C.;Chanon, N.;Collard, C.;Conte, E.;Coubez, X.;Fontaine, J. C.;Gele, D.;Goerlach, U.;Goetzmann, C.;Le Bihan, A. C.;Merlin, J. A.;Skovpen, K.;Van Hove, P.;Gadrat, S.;Beauceron, S.;Bernet, C.;Boudoul, G.;Bouvier, E.;Montoya, C. A. C.;Chasserat, J.;Chierici, R.;Contardo, D.;Courbon, B.;Depasse, P.;El Mamouni, H.;Fan, J.;Fay, J.;Gascon, S.;Gouzevitch, M.;Ille, B.;Laktineh, I. B.;Lethuillier, M.;Mirabito, L.;Pequegnot, A. L.;Perries, S.;Alvarez, J. D. R.;Sabes, D.;Sgandurra, L.;Sordini, V.;Donckt, M. V.;Verdier, P.;Viret, S.;Xiao, H.;Toriashvili, T.;Tsamalaidze, Z.;Autermann, C.;Beranek, S.;Edelhoff, M.;Feld, L.;Heister, A.;Kiesel, M. K.;Klein, K.;Lipinski, M.;Ostapchuk, A.;Preuten, M.;Raupach, F.;Sammet, J.;Schael, S.;Schulte, J. F.;Verlage, T.;Weber, H.;Wittmer, B.;Zhukov, V.;Ata, M.;Brodski, M.;Dietz-Laursonn, E.;Duchardt, D.;Endres, M.;Erdmann, M.;Erdweg, S.;Esch, T.;Fischer, R.;Guth, A.;Hebbeker, T.;Heidemann, C.;Hoepfner, K.;Klingebiel, D.;Knutzen, S.;Kreuzer, P.;Merschmeyer, M.;Meyer, A.;Millet, P.;Olschewski, M.;Padeken, K.;Papacz, P.;Pook, T.;Radziej, M.;Reithler, H.;Rieger, M.;Scheuch, F.;Sonnenschein, L.;Teyssier, D.;Thuer, S.;Cherepanov, V.;Erdogan, Y.;Flugge, G.;Geenen, H.;Geisler, M.;Hoehle, F.;Kargoll, B.;Kress, T.;Kuessel, Y.;Kunsken, A.;Lingemann, J.;Nehrkorn, A.;Nowack, A.;Nugent, I. M.;Pistone, C.;Pooth, O.;Stahl, A.;Martin, M. A.;Asin, I.;Bartosik, N.;Behnke, O.;Behrens, U.;Bell, A. J.;Borras, K.;Burgmeier, A.;Cakir, A.;Calligaris, L.;Campbell, A.;Choudhury, S.;Costanza, F.;Pardos, C. D.;Dolinska, G.;Dooling, S.;Dorland, T.;Eckerlin, G.;Eckstein, D.;Eichhorn, T.;Flucke, G.;Gallo, E.;Garcia, J. G.;Geiser, A.;Gizhko, A.;Gunnellini, P.;Hauk, J.;Hempel, M.;Jung, H.;Kalogeropoulos, A.;Karacheban, O.;Kasemann, M.;Katsas, P.;Kieseler, J.;Kleinwort, C.;Korol, I.;Lange, W.;Leonard, J.;Lipka, K.;Lobanov, A.;Lohmann, W.;Mankel, R.;Marfin, I.;Melzer-Pellmann, I. A.;Meyer, A. B.;Mittag, G.;Mnich, J.;Mussgiller, A.;Naumann-Emme, S.;Nayak, A.;Ntomari, E.;Perrey, H.;Pitzl, D.;Placakyte, R.;Raspereza, A.;Cipriano, P. M. R.;Roland, B.;Sahin, M. O.;Saxena, P.;Schoerner-Sadenius, T.;Schroder, M.;Seitz, C.;Spannagel, S.;Trippkewitz, K. D.;Walsh, R.;Wissing, C.;Blobel, V.;Vignali, M. C.;Draeger, A. R.;Erfle, J.;Garutti, E.;Goebel, K.;Gonzalez, D.;Gorner, M.;Haller, J.;Hoffmann, M.;Hoing, R. S.;Junkes, A.;Klanner, R.;Kogler, R.;Lapsien, T.;Lenz, T.;Marchesini, I.;Marconi, D.;Nowatschin, D.;Ott, J.;Pantaleo, F.;Peiffer, T.;Perieanu, A.;Pietsch, N.;Poehlsen, J.;Rathjens, D.;Sander, C.;Schettler, H.;Schleper, P.;Schlieckau, E.;Schmidt, A.;Schwandt, J.;Seidel, M.;Sola, V.;Stadie, H.;Steinbruck, G.;Tholen, H.;Troendle, D.;Usai, E.;Vanelderen, L.;Vanhoefer, A.;Akbiyik, M.;Barth, C.;Baus, C.;Berger, J.;Boser, C.;Butz, E.;Chwalek, T.;Colombo, F.;De Boer, W.;Descroix, A.;Dierlamm, A.;Feindt, M.;Frensch, F.;Giffels, M.;Gilbert, A.;Hartmann, F.;Husemann, U.;Kassel, F.;Katkov, I.;Kornmayer, A.;Pardo, P. L.;Mozer, M. U.;Muller, T.;Muller, T.;Plagge, M.;Quast, G.;Rabbertz, K.;Rocker, S.;Roscher, F.;Simonis, H. J.;Stober, F. M.;Ulrich, R.;Wagner-Kuhr, J.;Wayand, S.;Weiler, T.;Wohrmann, C.;Wolf, R.;Anagnostou, G.;Daskalakis, G.;Geralis, T.;Giakoumopoulou, V. A.;Kyriakis, A.;Loukas, D.;Markou, A.;Psallidas, A.;Topsis-Giotis, I.;Agapitos, A.;Kesisoglou, S.;Panagiotou, A.;Saoulidou, N.;Tziaferi, E.;Evangelou, I.;Flouris, G.;Foudas, C.;Kokkas, P.;Loukas, N.;Manthos, N.;Papadopoulos, I.;Paradas, E.;Strologas, J.;Bencze, G.;Hajdu, C.;Hazi, A.;Hidas, P.;Horvath, D.;Sikler, F.;Veszpremi, V.;Vesztergombi, G.;Zsigmond, A. J.;Beni, N.;Czellar, S.;Karancsi, J.;Molnar, J.;Szillasi, Z.;Bartok, M.;Makovec, A.;Raics, P.;Trocsanyi, Z. L.;Ujvari, B.;Mal, P.;Mandal, K.;Sahoo, N.;Swain, S. K.;Bansal, S.;Beri, S. B.;Bhatnagar, V.;Chawla, R.;Gupta, R.;Bhawandeep, U.;Kalsi, A. K.;Kaur, A.;Kaur, M.;Kumar, R.;Mehta, A.;Mittal, M.;Nishu, N.;Singh, J. B.;Walia, G.;Kumar, A.;Kumar, A.;Bhardwaj, A.;Choudhary, B. C.;Garg, R. B.;Kumar, A.;Malhotra, S.;Naimuddin, M.;Ranjan, K.;Sharma, R.;Sharma, V.;Banerjee, S.;Bhattacharya, S.;Chatterjee, K.;Dey, S.;Dutta, S.;Jain, S.;Jain, S.;Khurana, R.;Majumdar, N.;Modak, A.;Mondal, K.;Mukherjee, S.;Mukhopadhyay, S.;Roy, A.;Roy, D.;Chowdhury, S. R.;Sarkar, S.;Sharan, M.;Abdulsalam, A.;Chudasama, R.;Dutta, D.;Jha, V.;Kumar, V.;Mohanty, A. K.;Pant, L. M.;Shukla, P.;Topkar, A.;Aziz, T.;Banerjee, S.;Bhowmik, S.;Chatterjee, R. M.;Dewanjee, R. K.;Dugad, S.;Ganguly, S.;Ghosh, S.;Guchait, M.;Gurtu, A.;Kole, G.;Kumar, S.;Mahakud, B.;Maity, M.;Majumder, G.;Mazumdar, K.;Mitra, S.;Mohanty, G. B.;Parida, B.;Sarkar, T.;Sudhakar, K.;Sur, N.;Sutar, B.;Wickramage, N.;Sharma, S.;Bakhshiansohi, H.;Behnamian, H.;Etesami, S. M.;Fahim, A.;Goldouzian, R.;Khakzad, M.;Najafabadi, M. M.;Naseri, M.;Mehdiabadi, S. P.;Hosseinabadi, F. R.;Safarzadeh, B.;Zeinali, M.;Felcini, M.;Grunewald, M.;Abbrescia, M.;Calabria, C.;Caputo, C.;Chhibra, S. S.;Colaleo, A.;Creanza, D.;Cristella, L.;De Filippis, N.;De Palma, M.;Fiore, L.;Iaselli, G.;Maggi, G.;Maggi, M.;Miniello, G.;My, S.;Nuzzo, S.;Pompili, A.;Pugliese, G.;Radogna, R.;Ranieri, A.;Selvaggi, G.;Silvestris, L.;Venditti, R.;Verwilligen, P.;Abbiendi, G.;Battilana, C.;Benvenuti, A. C.;Bonacorsi, D.;Braibant-Giacomelli, S.;Brigliadori, L.;Campanini, R.;Capiluppi, P.;Castro, A.;Cavallo, F. R.;Codispoti, G.;Cuffiani, M.;Dallavalle, G. M.;Fabbri, F.;Fanfani, A.;Fasanella, D.;Giacomelli, P.;Grandi, C.;Guiducci, L.;Marcellini, S.;Masetti, G.;Montanari, A.;Navarria, F. L.;Perrotta, A.;Rossi, A. M.;Rovelli, T.;Siroli, G. P.;Tosi, N.;Travaglini, R.;Cappello, G.;Chiorboli, M.;Costa, S.;Giordano, F.;Potenza, R.;Tricomi, A.;Tuve, C.;Barbagli, G.;Ciulli, V.;Civinini, C.;D'Alessandro, R.;Focardi, E.;Gonzi, S.;Gori, V.;Lenzi, P.;Meschini, M.;Paoletti, S.;Sguazzoni, G.;Tropiano, A.;Viliani, L.;Benussi, L.;Bianco, S.;Fabbri, F.;Piccolo, D.;Calvelli, V.;Ferro, F.;Lo Vetere, M.;Robutti, E.;Tosi, S.;Dinardo, M. E.;Fiorendi, S.;Gennai, S.;Gerosa, R.;Ghezzi, A.;Govoni, P.;Malvezzi, S.;Manzoni, R. A.;Marzocchi, B.;Menasce, D.;Moroni, L.;Paganoni, M.;Pedrini, D.;Ragazzi, S.;Redaelli, N.;de Fatis, T. T.;Buontempo, S.;Cavallo, N.;Di Guida, S.;Esposito, M.;Fabozzi, F.;Iorio, A. O. M.;Lanza, G.;Lista, L.;Meola, S.;Merola, M.;Paolucci, P.;Sciacca, C.;Thyssen, F.;Azzi, P.;Bacchetta, N.;Bellato, M.;Bisello, D.;Branca, A.;Carlin, R.;Checchia, P.;Dall'Osso, M.;Dorigo, T.;Dosselli, U.;Gasparini, F.;Gasparini, U.;Gozzelino, A.;Gulmini, M.;Kanishchev, K.;Lacaprara, S.;Margoni, M.;Meneguzzo, A. T.;Pazzini, J.;Pozzobon, N.;Ronchese, P.;Simonetto, F.;Torassa, E.;Tosi, M.;Ventura, S.;Zanetti, M.;Zotto, P.;Zucchetta, A.;Braghieri, A.;Magnani, A.;Ratti, S. P.;Re, V.;Riccardi, C.;Salvini, P.;Vai, I.;Vitulo, P.;Solestizi, L. A.;Biasini, M.;Bilei, G. M.;Ciangottini, D.;Fano, L.;Lariccia, P.;Mantovani, G.;Menichelli, M.;Saha, A.;Androsov, K.;Spiezia, A.;Androsov, K.;Azzurri, P.;Bagliesi, G.;Bernardini, J.;Boccali, T.;Broccolo, G.;Castaldi, R.;Ciocci, M. A.;Dell'Orso, R.;Donato, S.;Fedi, G.;Foa, L.;Giassi, A.;Grippo, M. T.;Ligabue, F.;Lomtadze, T.;Martini, L.;Messineo, A.;Palla, F.;Rizzi, A.;Savoy-Navarro, A.;Serban, A. T.;Spagnolo, P.;Squillacioti, P.;Tenchini, R.;Tonelli, G.;Venturi, A.;Verdini, P. G.;Barone, L.;Cavallari, F.;D'Imperio, G.;Del Re, D.;Diemoz, M.;Gelli, S.;Jorda, C.;Longo, E.;Margaroli, F.;Meridiani, P.;Micheli, F.;Organtini, G.;Paramatti, R.;Preiato, F.;Rahatlou, S.;Rovelli, C.;Santanastasio, F.;Traczyk, P.;Amapane, N.;Arcidiacono, R.;Argiro, S.;Arneodo, M.;Bellan, R.;Biino, C.;Cartiglia, N.;Costa, M.;Covarelli, R.;Degano, A.;Demaria, N.;Finco, L.;Kiani, B.;Mariotti, C.;Maselli, S.;Migliore, E.;Monaco, V.;Monteil, E.;Musich, M.;Obertino, M. M.;Pacher, L.;Pastrone, N.;Pelliccioni, M.;Angioni, G. L. P.;Ravera, F.;Romero, A.;Ruspa, M.;Sacchi, R.;Solano, A.;Staiano, A.;Tamponi, U.;Belforte, S.;Candelise, V.;Casarsa, M.;Cossutti, F.;Della Ricca, G.;Gobbo, B.;La Licata, C.;Marone, M.;Schizzi, A.;Umer, T.;Zanetti, A.;Chang, S.;Kropivnitskaya, A.;Nam, S. K.;Kim, D. H.;Kim, G. N.;Kim, M. S.;Kong, D. J.;Lee, S.;Oh, Y. D.;Sakharov, A.;Son, D. C.;Cifuentes, J. A. B.;Kim, H.;Kim, T. J.;Ryu, M. S.;Song, S.;Choi, S.;Go, Y.;Gyun, D.;Hong, B.;Jo, M.;Kim, H.;Kim, Y.;Lee, B.;Lee, K.;Lee, K. S.;Lee, S.;Park, S. K.;Roh, Y.;Yoo, H. D.;Choi, M.;Kim, H.;Kim, J. H.;Lee, J. S. H.;Park, I. C.;Ryu, G.;Choi, Y.;Choi, Y. K.;Goh, J.;Kim, D.;Kwon, E.;Lee, J.;Yu, I.;Juodagalvis, A.;Vaitkus, J.;Ahmed, I.;Ibrahim, Z. A.;Komaragiri, J. R.;Mdali, M. A. B.;Idris, F. M.;Abdullah, Watw;Linares, E. C.;Castilla-Valdez, H.;De La Cruz-Burelo, E.;La Cruz, I. H. D.;Hernandez-Almada, A.;Lopez-Fernandez, R.;Sanchez-Hernandez, A.;Moreno, S. C.;Valencia, F. V.;Carpinteyro, S.;Pedraza, I.;Ibarguen, H. A. S.;Pineda, A. M.;Krofcheck, D.;Butler, P. H.;Reucroft, S.;Ahmad, A.;Ahmad, M.;Hassan, Q.;Hoorani, H. R.;Khan, W. A.;Khurshid, T.;Shoaib, M.;Bialkowska, H.;Bluj, M.;Boimska, B.;Frueboes, T.;Gorski, M.;Kazana, M.;Nawrocki, K.;Romanowska-Rybinska, K.;Szleper, M.;Zalewski, P.;Brona, G.;Bunkowski, K.;Doroba, K.;Kalinowski, A.;Konecki, M.;Krolikowski, J.;MisiIura, M.;Olszewski, M.;Walczak, M.;Bargassa, P.;Silva, Cbadce;Di Francesco, A.;Faccioli, P.;Parracho, P. G. F.;Gallinaro, M.;Iglesias, L. L.;Nguyen, F.;Antunes, J. R.;Seixas, J.;Toldaiev, O.;Vadruccio, D.;Varela, J.;Vischia, P.;Afanasiev, S.;Bunin, P.;Gavrilenko, M.;Golutvin, I.;Gorbunov, I.;Kamenev, A.;Karjavin, V.;Konoplyanikov, V.;Lanev, A.;Malakhov, A.;Matveev, V.;Moisenz, P.;Palichik, V.;Perelygin, V.;Shmatov, S.;Shulha, S.;Skatchkov, N.;Smirnov, V.;Zarubin, A.;Golovtsov, V.;Ivanov, Y.;Kim, V.;Kuznetsova, E.;Levchenko, P.;Murzin, V.;Oreshkin, V.;Smirnov, I.;Sulimov, V.;Uvarov, L.;Vavilov, S.;Vorobyev, A.;Andreev, Y.;Dermenev, A.;Gninenko, S.;Golubev, N.;Karneyeu, A.;Kirsanov, M.;Krasnikov, N.;Pashenkov, A.;Tlisov, D.;Toropin, A.;Epshteyn, V.;Gavrilov, V.;Lychkovskaya, N.;Popov, V.;Pozdnyakov, I.;Safronov, G.;Spiridonov, A.;Vlasov, E.;Zhokin, A.;Bylinkin, A.;Andreev, V.;Azarkin, M.;Dremin, I.;Kirakosyan, M.;Leonidov, A.;Mesyats, G.;Rusakov, S. V.;Vinogradov, A.;Baskakov, A.;Belyaev, A.;Boos, E.;Bunichev, V.;Dubinin, M.;Dudko, L.;Ershov, A.;Gribushin, A.;Klyukhin, V.;Kodolova, O.;Lokhtin, I.;Myagkov, I.;Obraztsov, S.;Petrushanko, S.;Savrin, V.;Azhgirey, I.;Bayshev, I.;Bitioukov, S.;Kachanov, V.;Kalinin, A.;Konstantinov, D.;Krychkine, V.;Petrov, V.;Ryutin, R.;Sobol, A.;Tourtchanovitch, L.;Troshin, S.;Tyurin, N.;Uzunian, A.;Volkov, A.;Adzic, P.;Ekmedzic, M.;Milosevic, J.;Rekovic, V.;Maestre, J. A.;Calvo, E.;Cerrada, M.;Llatas, M.;Colino, N.;De La Cruz, B.;Peris, A. D.;Vazquez, D. D.;Del Valle, A. E.;Bedoya, C. F.;Ramos, J. P. F.;Flix, J.;Garcia-Abia, P.;Lopez, O. G.;Lopez, S. G.;Hernandez, J. M.;Josa, M. I.;De Martino, E. N.;Yzquierdo, A. P. C.;Pelayo, J. P.;Olmeda, A. Q.;Redondo, I.;Romero, L.;Soares, M. S.;Albajar, C.;de Troconiz, J. F.;Missiroli, M.;Moran, D.;Brun, H.;Cuevas, J.;Menendez, J. F.;Folgueras, S.;Caballero, I. G.;Cortezon, E. P.;Garcia, J. M. V.;Cabrillo, I. J.;Calderon, A.;De Saa, J. R. C.;Manzano, P. D. C.;Campderros, J. D.;Fernandez, M.;Gomez, G.;Graziano, A.;Virto, A. L.;Marco, J.;Marco, R.;Rivero, C. M.;Matorras, F.;Sanchez, F. J. M.;Gomez, J. P.;Rodrigo, T.;Rodriguez-Marrero, A. Y.;Ruiz-Jimeno, A.;Scodellaro, L.;Vila, I.;Cortabitarte, R. V.;Abbaneo, D.;Ray, E. A. F.;Auzinger, G.;Bachtis, M.;Baillon, P.;Ball, A. H.;Barney, D.;Benaglia, A.;Bendavid, J.;Benhabib, L.;Benitez, J. F.;Berruti, G. M.;Bianchi, G.;Bloch, P.;Bocci, A.;Bonato, A.;Botta, C.;Breuker, H.;Camporesi, T.;Cerminara, G.;Colafranceschi, S.;D'Alfonso, M.;d'Enterria, D.;Dabrowski, A.;Daponte, V.;David, A.;De Gruttola, M.;De Guio, F.;De Roeck, A.;De Visscher, S.;Di Marco, E.;Dobson, M.;Dordevic, M.;du Pree, T.;Dupont, N.;Elliott-Peisert, A.;Eugster, J.;Franzoni, G.;Funk, W.;Gigi, D.;Gill, K.;Giordano, D.;Girone, M.;Glege, F.;Guida, R.;Gundacker, S.;Guthoff, M.;Hammer, J.;Hansen, M.;Harris, P.;Hegeman, J.;Innocente, V.;Janot, P.;Kirschenmann, H.;Kortelainen, M. J.;Kousouris, K.;Krajczar, K.;Lecoq, P.;Lourenco, C.;Lucchini, M. T.;Magini, N.;Malgeri, L.;Mannelli, M.;Marrouche, J.;Martelli, A.;Masetti, L.;Meijers, F.;Mersi, S.;Meschi, E.;Moortgat, F.;Morovic, S.;Mulders, M.;Nemallapudi, M. V.;Neugebauer, H.;Orfanelli, S.;Orsini, L.;Pape, L.;Perez, E.;Petrilli, A.;Petrucciani, G.;Pfeiffer, A.;Piparo, D.;Racz, A.;Rolandi, G.;Rovere, M.;Ruan, M.;Sakulin, H.;Schafer, C.;Schwick, C.;Sharma, A.;Silva, P.;Simon, M.;Sphicas, P.;Spiga, D.;Steggemann, J.;Stieger, B.;Stoye, M.;Takahashi, Y.;Treille, D.;Tsirou, A.;Veres, G. I.;Wardle, N.;Wohri, H. K.;Zagozdzinska, A.;Zeuner, W. D.;Bertl, W.;Deiters, K.;Erdmann, W.;Horisberger, R.;Ingram, Q.;Kaestli, H. C.;Kotlinski, D.;Langenegger, U.;Renker, D.;Rohe, T.;Bachmair, F.;Bani, L.;Bianchini, L.;Buchmann, M. A.;Casal, B.;Dissertori, G.;Dittmar, M.;Donega, M.;Dunser, M.;Eller, P.;Grab, C.;Heidegger, C.;Hits, D.;Hoss, J.;Kasieczka, G.;Lustermann, W.;Mangano, B.;Marini, A. C.;Marionneau, M.;del Arbol, P. M. R.;Masciovecchio, M.;Meister, D.;Musella, P.;Nessi-Tedaldi, F.;Pandolfi, F.;Pata, J.;Pauss, F.;Perrozzi, L.;Peruzzi, M.;Quittnat, M.;Rossini, M.;Starodumov, A.;Takahashi, M.;Tavolaro, V. R.;Theofilatos, K.;Wallny, R.;Weber, H. A.;Aarrestad, T. K.;Amsler, C.;Caminada, L.;Canelli, M. F.;Chiochia, V.;De Cosa, A.;Galloni, C.;Hinzmann, A.;Hreus, T.;Kilminster, B.;Lange, C.;Ngadiuba, J.;Pinna, D.;Robmann, P.;Ronga, F. J.;Salerno, D.;Taroni, S.;Yang, Y.;Cardaci, M.;Chen, K. H.;Doan, T. H.;Ferro, C.;Konyushikhin, M.;Kuo, C. M.;Lin, W.;Lu, Y. J.;Volpe, R.;Yu, S. S.;Bartek, R.;Chang, P.;Chang, Y. H.;Chang, Y. W.;Chao, Y.;Chen, K. F.;Chen, P. H.;Dietz, C.;Fiori, F.;Grundler, U.;Hou, W. S.;Hsiung, Y.;Liu, Y. F.;Lu, R. S.;Moya, M. M.;Petrakou, E.;Tsai, J. F.;Tzeng, Y. M.;Asavapibhop, B.;Kovitanggoon, K.;Singh, G.;Srimanobhas, N.;Suwonjandee, N.;Adiguzel, A.;Bakirci, M. N.;Dozen, C.;Dumanoglu, I.;Eskut, E.;Girgis, S.;Gokbulut, G.;Guler, Y.;Gurpinar, E.;Hos, I.;Kangal, E. E.;Onengut, G.;Ozdemir, K.;Polatoz, A.;Cerci, D. S.;Vergili, M.;Zorbilmez, C.;Akin, I. V.;Bilin, B.;Bilmis, S.;Isildak, B.;Karapinar, G.;Surat, U. E.;Yalvac, M.;Zeyrek, M.;Albayrak, E. A.;Gulmez, E.;Kaya, M.;Kaya, O.;Yetkin, T.;Cankocak, K.;Sen, S.;Vardarli, F. I.;Grynyov, B.;Levchuk, L.;Sorokin, P.;Aggleton, R.;Ball, F.;Beck, L.;Brooke, J. J.;Clement, E.;Cussans, D.;Flacher, H.;Goldstein, J.;Grimes, M.;Heath, G. P.;Heath, H. F.;Jacob, J.;Kreczko, L.;Lucas, C.;Meng, Z.;Newbold, D. M.;Paramesvaran, S.;Poll, A.;Sakuma, T.;El Nasr-Storey, S. S.;Senkin, S.;Smith, D.;Smith, V. J.;Bell, K. W.;Belyaev, A.;Brew, C.;Brown, R. M.;Cockerill, D. J. A.;Coughlan, J. A.;Harder, K.;Harper, S.;Olaiya, E.;Petyt, D.;Shepherd-Themistocleous, C. H.;Thea, A.;Thomas, L.;Tomalin, I. R.;Williams, T.;Womersley, W. J.;Worm, S. D.;Baber, M.;Bainbridge, R.;Buchmuller, O.;Bundock, A.;Burton, D.;Casasso, S.;Citron, M.;Colling, D.;Corpe, L.;Cripps, N.;Dauncey, P.;Davies, G.;De Wit, A.;Della Negra, M.;Dunne, P.;Elwood, A.;Ferguson, W.;Fulcher, J.;Futyan, D.;Hall, G.;Iles, G.;Karapostoli, G.;Kenzie, M.;Lane, R.;Lucas, R.;Lyons, L.;Magnan, A. M.;Malik, S.;Nash, J.;Nikitenko, A.;Pela, J.;Pesaresi, M.;Petridis, K.;Raymond, D. M.;Richards, A.;Rose, A.;Seez, C.;Tapper, A.;Uchida, K.;Acosta, M. V.;Virdee, T.;Zenz, S. C.;Cole, J. E.;Hobson, P. R.;Khan, A.;Kyberd, P.;Leggat, D.;Leslie, D.;Reid, I. D.;Symonds, P.;Teodorescu, L.;Turner, M.;Borzou, A.;Dittmann, J.;Hatakeyama, K.;Kasmi, A.;Liu, H.;Pastika, N.;Charaf, O.;Cooper, S. I.;Henderson, C.;Rumerio, P.;Avetisyan, A.;Bose, T.;Fantasia, C.;Gastler, D.;Lawson, P.;Rankin, D.;Richardson, C.;Rohlf, J.;John, J. S.;Sulak, L.;Zou, D.;Alimena, J.;Berry, E.;Bhattacharya, S.;Cutts, D.;Dhingra, N.;Ferapontov, A.;Garabedian, A.;Heintz, U.;Laird, E.;Landsberg, G.;Mao, Z.;Narain, M.;Sagir, S.;Sinthuprasith, T.;Breedon, R.;Breto, G.;Sanchez, Mcdlb;Chauhan, S.;Chertok, M.;Conway, J.;Conway, R.;Cox, P. T.;Erbacher, R.;Gardner, M.;Ko, W.;Lander, R.;Mulhearn, M.;Pellett, D.;Pilot, J.;Ricci-Tam, F.;Shalhout, S.;Smith, J.;Squires, M.;Stolp, D.;Tripathi, M.;Wilbur, S.;Yohay, R.;Cousins, R.;Everaerts, P.;Farrell, C.;Hauser, J.;Ignatenko, M.;Rakness, G.;Saltzberg, D.;Takasugi, E.;Valuev, V.;Weber, M.;Burt, K.;Clare, R.;Ellison, J.;Gary, J. W.;Hanson, G.;Heilman, J.;Paneva, M. I.;Jandir, P.;Kennedy, E.;Lacroix, F.;Long, O. R.;Luthra, A.;Malberti, M.;Negrete, M. O.;Shrinivas, A.;Wei, H.;Wimpenny, S.;Branson, J. G.;Cerati, G. B.;Cittolin, S.;D'Agnolo, R. T.;Holzner, A.;Kelley, R.;Klein, D.;Letts, J.;Macneill, I.;Olivito, D.;Padhi, S.;Pieri, M.;Sani, M.;Sharma, V.;Simon, S.;Tadel, M.;Tu, Y.;Vartak, A.;Wasserbaech, S.;Welke, C.;Wurthwein, F.;Yagil, A | Search for neutral MSSM Higgs bosons decaying into a pair of bottom quarks | search for neutral mssm higgs bosons decaying into a pair of bottom quarks | citation khachatryan sirunyan tumasyan adam asilar bergauer neutral mssm bosons decaying quarks. jhep neutral bosons decaying presented. signature supersymmetric mssm beta. proton proton collisions luminosity data. observed. stringent branching bosons interpreted mssm benchmark scenarios stau stop. confidence beta ranging benchmark scenario.additional hormann hrubec jeitler knunz konig krammer kratschmer liko matsushita mikulec rabady rahbaran rohringer schieck schofbeck strauss treberer treberspurg waltenberger wulz mossolov shumeiko gonzalez alderweireldt cornelis wolf janssen knutsson lauwers luyckx ochesanu rougny klundert haevermaet 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roscher simonis stober ulrich wagner kuhr wayand weiler wohrmann wolf anagnostou daskalakis geralis giakoumopoulou kyriakis loukas markou psallidas topsis giotis agapitos kesisoglou panagiotou saoulidou tziaferi evangelou flouris foudas kokkas loukas manthos papadopoulos paradas strologas bencze hajdu hazi hidas horvath sikler veszpremi vesztergombi zsigmond beni czellar karancsi molnar szillasi bartok makovec raics trocsanyi ujvari mandal sahoo swain bansal beri bhatnagar chawla gupta bhawandeep kalsi kaur kaur kumar mehta mittal nishu singh walia kumar kumar bhardwaj choudhary garg kumar malhotra naimuddin ranjan sharma sharma banerjee bhattacharya chatterjee dutta jain jain khurana majumdar modak mondal mukherjee mukhopadhyay chowdhury sarkar sharan abdulsalam chudasama dutta kumar mohanty pant shukla topkar aziz banerjee bhowmik chatterjee dewanjee dugad ganguly ghosh guchait gurtu kole kumar mahakud maity majumder mazumdar mitra mohanty parida sarkar sudhakar sutar wickramage 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iorio lanza lista meola merola paolucci sciacca thyssen azzi bacchetta bellato bisello branca carlin checchia dall osso dorigo dosselli gasparini gasparini gozzelino gulmini kanishchev lacaprara margoni meneguzzo pazzini pozzobon ronchese simonetto torassa tosi ventura zanetti zotto zucchetta braghieri magnani ratti riccardi salvini vitulo solestizi biasini bilei ciangottini fano lariccia mantovani menichelli saha androsov spiezia androsov azzurri bagliesi bernardini boccali broccolo castaldi ciocci dell orso donato fedi giassi grippo ligabue lomtadze martini messineo palla rizzi savoy navarro serban spagnolo squillacioti tenchini tonelli venturi verdini barone cavallari imperio diemoz gelli jorda longo margaroli meridiani micheli organtini paramatti preiato rahatlou rovelli santanastasio traczyk amapane arcidiacono argiro arneodo bellan biino cartiglia costa covarelli degano demaria finco kiani mariotti maselli migliore monaco monteil musich obertino pacher pastrone pelliccioni angioni ravera romero ruspa sacchi solano staiano tamponi belforte candelise casarsa cossutti della ricca gobbo licata marone schizzi umer zanetti chang kropivnitskaya kong sakharov cifuentes song choi gyun hong park choi park choi choi kwon juodagalvis vaitkus ahmed ibrahim komaragiri mdali idris abdullah watw linares castilla valdez cruz burelo cruz hernandez almada lopez fernandez sanchez hernandez moreno valencia carpinteyro pedraza ibarguen pineda krofcheck butler reucroft ahmad ahmad hassan hoorani khan khurshid shoaib bialkowska bluj boimska frueboes gorski kazana nawrocki romanowska rybinska szleper zalewski brona bunkowski doroba kalinowski konecki krolikowski misiiura olszewski walczak bargassa silva cbadce francesco faccioli parracho gallinaro iglesias nguyen antunes seixas toldaiev vadruccio varela vischia afanasiev bunin gavrilenko golutvin gorbunov kamenev karjavin konoplyanikov lanev malakhov matveev moisenz palichik perelygin shmatov shulha skatchkov smirnov zarubin golovtsov ivanov kuznetsova levchenko murzin oreshkin smirnov sulimov uvarov vavilov vorobyev andreev dermenev gninenko golubev karneyeu kirsanov krasnikov pashenkov tlisov toropin epshteyn gavrilov lychkovskaya popov pozdnyakov safronov spiridonov vlasov zhokin bylinkin andreev azarkin dremin kirakosyan leonidov mesyats rusakov vinogradov baskakov belyaev boos bunichev dubinin dudko ershov gribushin klyukhin kodolova lokhtin myagkov obraztsov petrushanko savrin azhgirey bayshev bitioukov kachanov kalinin konstantinov krychkine petrov ryutin sobol tourtchanovitch troshin tyurin uzunian volkov adzic ekmedzic milosevic rekovic maestre calvo cerrada llatas colino cruz peris vazquez valle bedoya ramos flix garcia abia lopez lopez hernandez josa martino yzquierdo pelayo olmeda redondo romero soares albajar troconiz missiroli moran brun cuevas menendez folgueras caballero cortezon garcia cabrillo calderon manzano campderros fernandez gomez graziano virto marco marco rivero matorras sanchez gomez rodrigo rodriguez marrero ruiz jimeno scodellaro vila cortabitarte abbaneo auzinger bachtis baillon ball barney benaglia bendavid benhabib benitez berruti bianchi bloch bocci bonato botta breuker camporesi cerminara colafranceschi alfonso enterria dabrowski daponte david gruttola guio roeck visscher marco dobson dordevic pree dupont elliott peisert eugster franzoni funk gigi gill giordano girone glege guida gundacker guthoff hammer hansen harris hegeman innocente janot kirschenmann kortelainen kousouris krajczar lecoq lourenco lucchini magini malgeri mannelli marrouche martelli masetti meijers mersi meschi moortgat morovic mulders nemallapudi neugebauer orfanelli orsini pape perez petrilli petrucciani pfeiffer piparo racz rolandi rovere ruan sakulin schafer schwick sharma silva simon sphicas spiga steggemann stieger stoye takahashi treille tsirou veres wardle wohri zagozdzinska zeuner bertl deiters erdmann horisberger ingram kaestli kotlinski langenegger renker rohe bachmair bani bianchini buchmann casal dissertori dittmar donega dunser eller grab heidegger hits hoss kasieczka lustermann mangano marini marionneau arbol masciovecchio meister musella nessi tedaldi pandolfi pata pauss perrozzi peruzzi quittnat rossini starodumov takahashi tavolaro theofilatos wallny weber aarrestad amsler caminada canelli chiochia cosa galloni hinzmann hreus kilminster lange ngadiuba pinna robmann ronga salerno taroni cardaci doan ferro konyushikhin volpe bartek chang chang chang chao dietz fiori grundler hsiung moya petrakou tsai tzeng asavapibhop kovitanggoon singh srimanobhas suwonjandee adiguzel bakirci dozen dumanoglu eskut girgis gokbulut guler gurpinar kangal onengut ozdemir polatoz cerci vergili zorbilmez akin bilin bilmis isildak karapinar surat yalvac zeyrek albayrak gulmez kaya kaya yetkin cankocak vardarli grynyov levchuk sorokin aggleton ball beck brooke clement cussans flacher goldstein grimes heath heath jacob kreczko lucas meng newbold paramesvaran poll sakuma nasr storey senkin bell belyaev brew brown cockerill coughlan harder harper olaiya petyt shepherd themistocleous thea thomas tomalin williams womersley worm baber bainbridge buchmuller bundock burton casasso citron colling corpe cripps dauncey davies della negra dunne elwood ferguson fulcher futyan hall iles karapostoli kenzie lane lucas lyons magnan malik nash nikitenko pela pesaresi petridis raymond richards rose seez tapper uchida acosta virdee zenz cole hobson khan kyberd leggat leslie reid symonds teodorescu turner borzou dittmann hatakeyama kasmi pastika charaf cooper henderson rumerio avetisyan bose fantasia gastler lawson rankin richardson rohlf john sulak alimena berry bhattacharya cutts dhingra ferapontov garabedian heintz laird landsberg narain sagir sinthuprasith breedon breto sanchez mcdlb chauhan chertok conway conway erbacher gardner lander mulhearn pellett pilot ricci shalhout squires stolp tripathi wilbur yohay cousins everaerts farrell hauser ignatenko rakness saltzberg takasugi valuev weber burt clare ellison gary hanson heilman paneva jandir kennedy lacroix luthra malberti negrete shrinivas wimpenny branson cerati cittolin agnolo holzner kelley klein letts macneill olivito padhi pieri sani sharma simon tadel vartak wasserbaech welke wurthwein yagil | non_dup | [] |
55640070 | 10.1007/jhep11(2015)206 | The ATLAS experiment at the LHC has measured the Higgs boson couplings and mass, and searched for invisible Higgs boson decays, using multiple production and decay channels with up to 4.7 fb−1 of pp collision data at √s=7 TeV and 20.3 fb−1 at √s=8 TeV. In the current study, the measured production and decay rates of the observed Higgs boson in the γγ, ZZ, W W , Zγ, bb, τ τ , and μμ decay channels, along with results from the associated production of a Higgs boson with a top-quark pair, are used to probe the scaling of the couplings with mass. Limits are set on parameters in extensions of the Standard Model including a composite Higgs boson, an additional electroweak singlet, and two-Higgs-doublet models. Together with the measured mass of the scalar Higgs boson in the γγ and ZZ decay modes, a lower limit is set on the pseudoscalar Higgs boson mass of m A > 370 GeV in the “hMSSM” simplified Minimal Supersymmetric Standard Model. Results from direct searches for heavy Higgs bosons are also interpreted in the hMSSM. Direct searches for invisible Higgs boson decays in the vector-boson fusion and associated production of a Higgs boson with W/Z (Z → ℓℓ, W/Z → jj) modes are statistically combined to set an upper limit on the Higgs boson invisible branching ratio of 0.25. The use of the measured visible decay rates in a more general coupling fit improves the upper limit to 0.23, constraining a Higgs portal model of dark matter.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF, DNSRC and Lundbeck Foundation, Denmark; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, HGF, and MPG, Germany; GSRT, Greece; RGC, Hong Kong SAR, China; ISF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; RCN, Norway; MNiSW and NCN, Poland; FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MESTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SERI, SNSF and Cantons of Bern and Geneva, Switzerland; MOST, Taiwan; TAEK, Turkey; STFC, United Kingdom; DOE and NSF, United States of America. In addition, individual groups and members have received support from BCKDF, the Canada Council, CANARIE, CRC, Compute Canada, FQRNT, and the Ontario Innovation Trust, Canada; EPLANET, ERC, FP7, Horizon 2020 and Marie Sklodowska-Curie Actions, European Union; Investissements d'Avenir Labex and Idex, ANR, Region Auvergne and Fondation Partager le Savoir, France; DFG and AvH Foundation, Germany; Herakleitos, Thales and Aristeia programmes co-financed by EU-ESF and the Greek NSRF; BSF, GIF and Minerva, Israel; BRF, Norway; the Royal Society and Leverhulme Trust, United Kingdom | Constraints on new phenomena via Higgs boson couplings and invisible decays with the ATLAS detector | constraints on new phenomena via higgs boson couplings and invisible decays with the atlas detector | atlas boson couplings searched invisible boson decays collision tev. boson boson couplings mass. extensions composite boson electroweak singlet doublet models. boson pseudoscalar boson “hmssm” simplified supersymmetric model. searches bosons interpreted hmssm. searches invisible boson decays boson fusion boson statistically boson invisible branching visible improves constraining portal matter.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc lundbeck foundation denmark cnrs irfu gnsf georgia bmbf gsrt greece hong kong benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland portugal romania russia russian federation jinr mestd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden seri snsf cantons bern geneva switzerland taiwan taek turkey stfc kingdom america. bckdf canada council canarie canada fqrnt ontario innovation trust canada eplanet horizon marie sklodowska curie union investissements avenir labex idex auvergne fondation partager savoir foundation herakleitos thales aristeia programmes financed greek nsrf minerva israel norway royal leverhulme trust kingdom | non_dup | [] |
80557389 | 10.1007/jhep11(2016)110 | Inclusive four-jet events produced in proton-proton collisions at a centre-of-mass energy of √s=7 TeV are analysed for the presence of hard double-parton scattering using data corresponding to an integrated luminosity of 37.3 pb−1, collected with the ATLAS detector at the LHC. The contribution of hard double-parton scattering to the production of four-jet events is extracted using an artificial neural network, assuming that hard double-parton scattering can be approximated by an uncorrelated overlaying of dijet events. For events containing at least four jets with transverse momentum pT ≥ 20 GeV and pseudorapidity |η| ≤ 4.4, and at least one having pT ≥ 42.5 GeV, the contribution of hard double-parton scattering is estimated to be fDPS = 0.092− 0.011+ 0.005(stat.)− 0.037+ 0.033(syst.). After combining this measurement with those of the inclusive dijet and four-jet cross-sections in the appropriate phase space regions, the effective cross-section, σeff , was determined to be σeff = 14. 9− 1.0+ 1.2(stat.)− 3.8+ 5.1(syst.) mb. This result is consistent within the quoted uncertainties with previous measurements of σeff , performed at centre-of-mass energies between 63 GeV and 8 TeV using various final states, and it corresponds to 21− 6+ 7 % of the total inelastic cross-section measured at √s=7 TeV. The distributions of the observables sensitive to the contribution of hard double-parton scattering, corrected for detector effects, are also provided.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF and DNSRC, Denmark; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, HGF, and MPG, Germany; GSRT, Greece; RGC, Hong Kong SAR, China; ISF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; RCN, Norway; MNiSW and NCN, Poland; FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MESTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SERI, SNSF and Cantons of Bern and Geneva, Switzerland; MOST, Taiwan; TAEK, Turkey; STFC, United Kingdom; DOE and NSF, United States of America. In addition, individual groups and members have received support from BCKDF, the Canada Council, CANARIE, CRC, Compute Canada, FQRNT, and the Ontario Innovation Trust, Canada; EPLANET, ERC, FP7, Horizon 2020 and Marie Sklodowska-Curie Actions, European Union; Investissements d'Avenir Labex and Idex, ANR, Region Auvergne and Fondation Partager le Savoir, France; DFG and AvH Foundation, Germany; Herakleitos, Thales and Aristeia programmes co-financed by EU-ESF and the Greek NSRF; BSF, GIF and Minerva, Israel; BRF, Norway; Generalitat de Catalunya, Generalitat Valenciana, Spain; the Royal Society and Leverhulme Trust, United Kingdom.info:eu-repo/semantics/publishedVersio | Study of hard double-parton scattering in four-jet events in pp collisions at √s=7 TeV with the ATLAS experiment | study of hard double-parton scattering in four-jet events in pp collisions at √s=7 tev with the atlas experiment | inclusive proton proton collisions analysed parton luminosity atlas lhc. parton artificial parton approximated uncorrelated overlaying dijet events. jets pseudorapidity parton fdps stat. syst. combining inclusive dijet σeff σeff stat. syst. quoted σeff inelastic tev. observables parton corrected provided.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc denmark cnrs irfu gnsf georgia bmbf gsrt greece hong kong benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland portugal romania russia russian federation jinr mestd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden seri snsf cantons bern geneva switzerland taiwan taek turkey stfc kingdom america. bckdf canada council canarie canada fqrnt ontario innovation trust canada eplanet horizon marie sklodowska curie union investissements avenir labex idex auvergne fondation partager savoir foundation herakleitos thales aristeia programmes financed greek nsrf minerva israel norway generalitat catalunya generalitat valenciana spain royal leverhulme trust kingdom.info repo semantics publishedversio | non_dup | [] |
80557388 | 10.1007/jhep11(2016)112 | A search with the ATLAS detector is presented for the Standard Model Higgs boson produced by vector-boson fusion and decaying to a pair of bottom quarks, using 20.2 fb−1 of LHC proton-proton collision data at s√=8 TeV. The signal is searched for as a resonance in the invariant mass distribution of a pair of jets containing b-hadrons in vector-boson-fusion candidate events. The yield is measured to be −0.8 ± 2.3 times the Standard Model cross-section for a Higgs boson mass of 125 GeV. The upper limit on the cross-section times the branching ratio is found to be 4.4 times the Standard Model cross-section at the 95% confidence level, consistent with the expected limit value of 5.4 (5.7) in the background-only (Standard Model production) hypothesis.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF and DNSRC, Denmark; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, HGF, and MPG, Germany; GSRT, Greece; RGC, Hong Kong SAR, China; ISF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; RCN, Norway; MNiSW and NCN, Poland; FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MESTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SERI, SNSF and Cantons of Bern and Geneva, Switzerland; MOST, Taiwan; TAEK, Turkey; STFC, United Kingdom; DOE and NSF, United States of America. In addition, individual groups and members have received support from BCKDF, the Canada Council, CANARIE, CRC, Compute Canada, FQRNT, and the Ontario Innovation Trust, Canada; EPLANET, ERC, FP7, Horizon 2020 and Marie Sklodowska-Curie Actions, European Union; Investissements d'Avenir Labex and Idex, ANR, Region Auvergne and Fondation Partager le Savoir, France; DFG and AvH Foundation, Germany; Herakleitos, Thales and Aristeia programmes co financed by EU-ESF and the Greek NSRF; BSF, GIF and Minerva, Israel; BRF, Norway; Generalitat de Catalunya, Generalitat Valenciana, Spain; the Royal Society and Leverhulme Trust, United Kingdom.info:eu-repo/semantics/publishedVersio | Search for the Standard Model Higgs boson produced by vector-boson fusion and decaying to bottom quarks in √s=8 TeV pp collisions with the ATLAS detector | search for the standard model higgs boson produced by vector-boson fusion and decaying to bottom quarks in √s=8 tev pp collisions with the atlas detector | atlas boson boson fusion decaying quarks proton proton collision tev. searched jets hadrons boson fusion candidate events. boson gev. branching confidence hypothesis.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc denmark cnrs irfu gnsf georgia bmbf gsrt greece hong kong benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland portugal romania russia russian federation jinr mestd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden seri snsf cantons bern geneva switzerland taiwan taek turkey stfc kingdom america. bckdf canada council canarie canada fqrnt ontario innovation trust canada eplanet horizon marie sklodowska curie union investissements avenir labex idex auvergne fondation partager savoir foundation herakleitos thales aristeia programmes financed greek nsrf minerva israel norway generalitat catalunya generalitat valenciana spain royal leverhulme trust kingdom.info repo semantics publishedversio | non_dup | [] |
132207576 | 10.1007/jhep11(2017)003 | The angular distributions of lepton pairs in the Drell-Yan process can provide rich information on the underlying QCD production mechanisms. These dynamics can be parameterised in terms of a set of frame dependent angular coefficients, Ai=0,…,7, which depend on the invariant mass, transverse momentum, and rapidity of the lepton pair. Motivated by recent measurements of these coefficients by ATLAS and CMS, and in particular by the apparent violation of the Lam-Tung relation A0−A2=0, we perform a precision study of the angular coefficients at O(α3s) in perturbative QCD. We make predictions relevant for pp collisions at s√=8 TeV, and perform comparisons with the available ATLAS and CMS data as well as providing predictions for a prospective measurement at LHCb. To expose the violation of the Lam-Tung relationship we propose a new observable ΔLT=1−A2/A0 that is more sensitive to the dynamics in the region where A0 and A2 are both small. We find that the O(α3s) corrections have an important impact on the pT,Z distributions for several of the angular coefficients, and are essential to provide an adequate description of the data. The compatibility of the available ATLAS and CMS data is reassessed by performing a partial χ2 test with respect to the central theoretical prediction which shows that χ2/Ndata is significantly reduced by going from O(α2s) to O(α3s) | Precise predictions for the angular coefficients in Z-boson production at the LHC. | precise predictions for the angular coefficients in z-boson production at the lhc. | lepton drell mechanisms. parameterised rapidity lepton pair. motivated atlas apparent violation tung precision perturbative qcd. collisions comparisons atlas prospective lhcb. expose violation tung propose observable small. adequate data. compatibility atlas reassessed performing ndata going | non_dup | [] |
143977419 | 10.1007/jhep11(2017)062 | A measurement of b-hadron pair production is presented, based on a data set corresponding to an integrated luminosity of 11.4 fb−1 of proton-proton collisions recorded at s√=8 TeV with the ATLAS detector at the LHC. Events are selected in which a b-hadron is reconstructed in a decay channel containing J/ψ → μμ, and a second b-hadron is reconstructed in a decay channel containing a muon. Results are presented in a fiducial volume defined by kinematic requirements on three muons based on those used in the analysis. The fiducial cross section is measured to be 17.7 ± 0.1(stat.) ± 2.0(syst.) nb. A number of normalised differential cross sections are also measured, and compared to predictions from the Pythia8, Herwig++, MadGraph5_aMC@NLO+Pythia8 and Sherpa event generators, providing new constraints on heavy flavour production.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF and DNSRC, Denmark; IN2P3-CNRS, CEA-DSM/IRFU, France; SRNSF, Georgia; BMBF, HGF, and MPG, Germany; GSRT, Greece; RGC, Hong Kong SAR, China; ISF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; NWO, Netherlands; RCN, Norway; MNiSW and NCN, Poland; FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MESTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SERI, SNSF and Cantons of Bern and Geneva, Switzerland; MOST, Taiwan; TAEK, Turkey; STFC, United Kingdom; DOE and NSF, United States of America. In addition, individual groups and members have received support from BCKDF, the Canada Council, CANARIE, CRC, Compute Canada, FQRNT, and the Ontario Innovation Trust, Canada; EPLANET, ERC, ERDF, FP7, Horizon 2020 and Marie Sklodowska-Curie Actions, European Union; Investissements d'Avenir Labex and Idex, ANR, Region Auvergne and Fondation Partager le Savoir, France; DFG and AvH Foundation, Germany; Herakleitos, Thales and Aristeia programmes co-financed by EU-ESF and the Greek NSRF; BSF, GIF and Minerva, Israel; BRF, Norway; CERCA Programme Generalitat de Catalunya, Generalitat Valenciana, Spain; the Royal Society and Leverhulme Trust, United Kingdom.info:eu-repo/semantics/publishedVersio | Measurement of b-hadron pair production with the ATLAS detector in proton-proton collisions at root s=8 TeV | measurement of b-hadron pair production with the atlas detector in proton-proton collisions at root s=8 tev | hadron luminosity proton proton collisions atlas lhc. hadron reconstructed hadron reconstructed muon. fiducial kinematic muons analysis. fiducial stat. syst. normalised pythia herwig madgraph pythia sherpa generators flavour production.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc denmark cnrs irfu srnsf georgia bmbf gsrt greece hong kong benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland portugal romania russia russian federation jinr mestd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden seri snsf cantons bern geneva switzerland taiwan taek turkey stfc kingdom america. bckdf canada council canarie canada fqrnt ontario innovation trust canada eplanet erdf horizon marie sklodowska curie union investissements avenir labex idex auvergne fondation partager savoir foundation herakleitos thales aristeia programmes financed greek nsrf minerva israel norway cerca programme generalitat catalunya generalitat valenciana spain royal leverhulme trust kingdom.info repo semantics publishedversio | non_dup | [] |
141469381 | 10.1007/jhep11(2017)133 | We propose a strategy to study massive Quantum Field Theory (QFT) using conformal bootstrap methods. The idea is to consider QFT in hyperbolic space and study correlation functions of its boundary operators. We show that these are solutions of the crossing equations in one lower dimension. By sending the curvature radius of the background hyperbolic space to infinity we expect to recover flat-space physics. We explain that this regime corresponds to large scaling dimensions of the boundary operators, and discuss how to obtain the flat-space scattering amplitudes from the corresponding limit of the boundary correlators. We implement this strategy to obtain universal bounds on the strength of cubic couplings in 2D flat-space QFTs using 1D conformal bootstrap techniques. Our numerical results match precisely the analytic bounds obtained in our companion paper using S-matrix bootstrap techniques | The S-matrix bootstrap. Part I : QFT in AdS. | the s-matrix bootstrap. part i : qft in ads. | propose massive conformal bootstrap methods. hyperbolic operators. crossing dimension. sending curvature hyperbolic infinity recover physics. amplitudes correlators. implement universal bounds cubic couplings qfts conformal bootstrap techniques. match precisely analytic bounds companion bootstrap | non_dup | [] |
141469380 | 10.1007/jhep11(2017)143 | We consider constraints on the S-matrix of any gapped, Lorentz invariant quantum field theory in 1 + 1 dimensions due to crossing symmetry and unitarity. In this way we establish rigorous bounds on the cubic couplings of a given theory with a fixed mass spectrum. In special cases we identify interesting integrable theories saturating these bounds. Our analytic bounds match precisely with numerical bounds obtained in a companion paper where we consider massive QFT in an AdS box and study boundary correlators using the technology of the conformal bootstrap | The S-matrix bootstrap II : two dimensional amplitudes. | the s-matrix bootstrap ii : two dimensional amplitudes. | gapped lorentz crossing unitarity. establish rigorous bounds cubic couplings spectrum. integrable saturating bounds. analytic bounds match precisely bounds companion massive correlators conformal bootstrap | non_dup | [] |
162912110 | 10.1007/jhep11(2018)159 | We discuss the renormalisation of mixed 3-point functions involving tensorial and scalar operators in conformal field theories of general dimension. In previous work we analysed correlators of either purely scalar or purely tensorial operators, in each case finding new features and new complications: for scalar correlators, renormalisation leads to beta functions, novel conformal anomalies of type B, and unexpected analytic structure in momentum space; for correlators of stress tensors and/or conserved currents, beta functions vanish but anomalies of both type B and type A (associated with a 0/0 structure) are present. Mixed correlators combine all these features: beta functions and anomalies of type B, plus the possibility of new type A anomalies. Following a non-perturbative and general momentum-space analysis, we present explicit results in dimensions d = 3, 4 for all renormalised 3-point functions of stress tensors, conserved currents and scalars of dimensions Δ = d and Δ = d − 2. We identify all anomalies and beta functions, and explain the form of the anomalous conformal Ward identities. In d = 3, we find a 0/0 structure but the corresponding type A anomaly turns out to be trivial. In addition, the correlators of two currents and a scalar, and of two stress tensors and a scalar, both feature universal tensor structures that are independent of the scalar dimension and vanish for opposite helicities | Renormalised CFT 3-point functions of scalars, currents and stress tensors. | renormalised cft 3-point functions of scalars, currents and stress tensors. | renormalisation involving tensorial conformal dimension. analysed correlators purely purely tensorial complications correlators renormalisation beta conformal anomalies unexpected analytic correlators tensors conserved currents beta vanish anomalies present. correlators combine beta anomalies anomalies. perturbative renormalised tensors conserved currents scalars anomalies beta anomalous conformal ward identities. anomaly turns trivial. correlators currents tensors universal vanish opposite helicities | non_dup | [] |
84049286 | 10.1007/jhep12(2010)060 | First measurements of the W → ℓν and Z/γ * → ℓℓ (ℓ = e, μ) production cross sections in proton-proton collisions at √ s = 7TeV are presented using data recorded by the ATLAS experiment at the LHC. The results are based on 2250 W → ℓν and 179 Z/γ* → ℓℓ candidate events selected from a data set corresponding to an integrated luminosity of approximately 320 nb-1. The measured total W and Z/ γ*-boson production cross sections times the respective leptonic branching ratios for the combined electron and muon channels are σtot W · BR(W → ℓν) = 9.96 ± 0.23(stat) ± 0.50(syst) ± 1.10(lumi) nb and σtot Z/γ* · BR(Z/ γ* → ℓℓ) = 0.82 ± 0.06 (stat) ± 0.05 (syst) ± 0.09 (lumi) nb (within the invariant mass window 66 < mℓℓ < 116 GeV). The W/Z cross-section ratio is measured to be 11.7 ± 0.9(stat) ± 0.4(syst). In addition, measurements of the W+ and W- production cross sections and of the lepton charge asymmetry are reported. Theoretical predictions based on NNLO QCD calculations are found to agree with the measurements.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MEYS (MSMT), MPO and CCRC, Czech Republic; DNRF, DNSRC and Lundbeck Foundation, Denmark; ARTEMIS, European Union; IN2P3-CNRS, CEA-DSM/IRFU, France; GNAS, Georgia; BMBF, DFG, HGF, MPG and AvH Foundation, Germany; GSRT, Greece; ISF, MINERVA, GIF, DIP and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; RCN, Norway; MNiSW, Poland; GRICES and FCT, Portugal; MERYS (MECTS), Romania; MES of Russia and ROSATOM, Russian Federation; JINR; MSTD, Serbia; MSSR, Slovakia; ARRS and MVZT, Slovenia; DST/NRF, South Africa; MICINN, Spain; SSRC and Wallenberg Foundation, weden; SER, SNSF and Cantons of Bern and Geneva, Switzerland; NSC, Taiwan; TAEK, Turkey; STFC, the Royal Society and Leverhulme Trust, United Kingdom; DOE and NSF, United States of America.info:eu-repo/semantics/publishedVersio | Measurement of the W → ℓν and Z/γ* → ℓℓ production cross sections in proton-proton collisions at √ s = 7 TeV with the ATLAS detector | measurement of the w → ℓν and z/γ* → ℓℓ production cross sections in proton-proton collisions at √ s = 7 tev with the atlas detector | proton proton collisions atlas lhc. candidate luminosity boson respective leptonic branching muon σtot stat syst lumi σtot stat syst lumi window stat syst lepton asymmetry reported. nnlo agree measurements.we acknowledge anpcyt argentina yerphi armenia australia bmwf austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia meys msmt ccrc czech republic dnrf dnsrc lundbeck foundation denmark artemis union cnrs irfu gnas georgia bmbf foundation gsrt greece minerva benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland grices portugal merys mects romania russia rosatom russian federation jinr mstd serbia mssr slovakia arrs mvzt slovenia africa micinn spain ssrc wallenberg foundation weden snsf cantons bern geneva switzerland taiwan taek turkey stfc royal leverhulme trust kingdom america.info repo semantics publishedversio | non_dup | [] |
9066661 | 10.1007/jhep12(2011)085 | Powerful new multi-kiloton liquid scintillator neutrino detectors, including NOνA and, possibly, LENA, will come on-line within the next decade. When coupled with a modest-power decay-at-rest (DAR) neutrino source at short-baseline, these detectors can decisively address signals for neutrino oscillations at high Δm2. Along the greater than 50 m length of the detector, the characteristic oscillation wave will be apparent, providing powerful verification of the oscillation phenomenon. LENA can simultaneously perform νμ → νe appearance and νe → νe disappearance searches while NOνA is likely limited to νe disappearance. For the appearance channel, a LENA-like detector could test the LSND and MiniBooNE signal regions at >5 σ with a fiducial volume of 5 kt and a 10 kW neutrino source. The LENA and NOνA νe disappearance sensitivities are complementary to the recent reactor anomaly indicating possible νe disappearance and would cover this possible oscillation signal at ~3 σ.National Science Foundation (U.S. | Short-baseline neutrino oscillation waves in ultra-large liquid scintillator detectors | short-baseline neutrino oscillation waves in ultra-large liquid scintillator detectors | powerful kiloton scintillator detectors noνa possibly lena come decade. modest detectors decisively oscillations oscillation apparent powerful verification oscillation phenomenon. lena simultaneously appearance disappearance searches noνa disappearance. appearance lena lsnd miniboone fiducial source. lena noνa disappearance sensitivities complementary reactor anomaly disappearance cover oscillation σ.national foundation u.s. | non_dup | [] |
30899506 | 10.1007/jhep12(2012)072 | <p>A measurement of B0s→J/ψϕ decay parameters, including the CP -violating weak phase ϕ s and the decay width difference ΔΓ s is reported, using 4.9 fb−1 of integrated luminosity collected in 2011 by the ATLAS detector from LHC pp collisions at a centre-of-mass energy s√=7 TeV. The mean decay width Γ s and the transversity amplitudes |A 0(0)|2 and |A ∥(0)|2 are also measured. The values reported for these parameters are:</p>
<p>ϕs=0.22±0.41 (stat.)±0.10 (syst.) rad</p>
<p>ΔΓs=0.053±0.021 (stat.)±0.010 (syst.) ps−1</p>
<p>Γs=0.677±0.007 (stat.)±0.004 (syst.) ps−1</p>
<p>|A0(0)|2=0.528±0.006 (stat.)±0.009 (syst.)</p>
<p>|A∥(0)|2=0.220±0.008 (stat.)±0.007 (syst.)</p>
<p>where the values quoted for ϕ s and ΔΓ s correspond to the solution compatible with the external measurements to which the strong phase δ ⊥ is constrained and where ΔΓs is constrained to be positive. The fraction of S-wave KK or f 0 contamination through the decays B0s→J/ψK+K−(f0) is measured as well and is found to be consistent with zero. Results for ϕ s and ΔΓ s are also presented as 68%, 90% and 95% likelihood contours, which show agreement with Standard Model expectations.</p | Time-dependent angular analysis of the decay B0s→J/ψϕ and extraction of ΔΓ s and the CP-violating weak phase ϕ s by ATLAS | time-dependent angular analysis of the decay b0s→j/ψϕ and extraction of δγ s and the cp-violating weak phase ϕ s by atlas | violating luminosity atlas collisions tev. transversity amplitudes measured. stat. syst. stat. syst. stat. syst. stat. syst. stat. syst. quoted compatible constrained constrained positive. contamination decays zero. likelihood contours expectations. | non_dup | [] |
78053933 | 10.1007/jhep12(2012)074 | Motivated by the recent Kitaev’s K-theory analysis of topological insulators and superconductors, we adopt the same framework to study the topological phase structure of Jackiw-Rebbi model in 3+1 dimensions. According to the K-theory analysis based on the properties of the charge conjugation and time reversal symmetries, we classify the topological phases of the model. In particular, we find that there exist Z Majorana zero-modes hosted by the hedgehogs/t’Hooft-Polyakov monopoles, if the model has a T [superscript 2] = 1 time reversal symmetry. Guided by the K-theory results, we then explicitly show that a single Majorana zero mode solution exists for the SU(2) doublet fermions in some co- dimensional one planes of the mass parameter space. It turns out we can see the existence of none or a single zero mode when the fermion doublet is only two. We then take a step further to consider four-fermion case and find there can be zero, one or two normalizable zero mode in some particular choices of mass matrices. Our results also indicate that a single normalizable Majorana zero mode can be compatible with the cancellation of SU(2) Witten anomaly | Majorana zero-modes and topological phases of multi-flavored Jackiw-Rebbi model | majorana zero-modes and topological phases of multi-flavored jackiw-rebbi model | motivated kitaev’s topological insulators superconductors adopt topological jackiw rebbi dimensions. conjugation reversal symmetries classify topological model. majorana hosted hedgehogs t’hooft polyakov monopoles superscript reversal symmetry. guided explicitly majorana doublet fermions planes space. turns none fermion doublet two. fermion normalizable choices matrices. normalizable majorana compatible cancellation witten anomaly | non_dup | [] |
20024896 | 10.1007/jhep12(2013)039 | A study of proton-proton collisions in which two b hadrons are produced in association with a Z boson is reported. The collisions were recorded at a centre-of-mass energy of 7 TeVwith the CMS detector at the LHC, for an integrated luminosity of 5.2 fb[superscript −1]. The b hadrons are identified by means of displaced secondary vertices, without the use of reconstructed jets, permitting the study of b-hadron pair production at small angular separation. Differential cross sections are presented as a function of the angular separation of the b hadrons and the Z boson. In addition, inclusive measurements are presented. For both the inclusive and differential studies, different ranges of Z boson momentum are considered, and each measurement is compared to the predictions from different event generators at leading-order and next-to-leading-order accuracy.United States. Dept. of EnergyNational Science Foundation (U.S. | Measurement of the cross section and angular correlations for associated production of a Z boson with b hadrons in pp collisions at √s = 7 TeV | measurement of the cross section and angular correlations for associated production of a z boson with b hadrons in pp collisions at √s = 7 tev | proton proton collisions hadrons boson reported. collisions tevwith luminosity superscript hadrons displaced reconstructed jets permitting hadron separation. hadrons boson. inclusive presented. inclusive ranges boson generators accuracy.united states. dept. energynational foundation u.s. | non_dup | [] |
30926626 | 10.1007/jhep12(2014)073 | The ALICE Collaboration has studied the inclusive production of the charmonium
state ψ(2S) in proton-lead (p-Pb) collisions at the nucleon-nucleon centre of mass
energy √sNN = 5.02TeV at the CERN LHC. The measurement was performed at forward
(2.03 < ycms < 3.53) and backward (−4.46 < ycms < −2.96) centre of mass rapidities,
studying the decays into muon pairs. In this paper, we present the inclusive production
cross sections σ (2S), both integrated and as a function of the transverse momentum pT,
for the two ycms domains. The results are compared to those obtained for the 1S vector
state (J/ψ), by showing the ratios between the production cross sections, as well as the
double ratios [σ (2S)/σJ/ ]pPb/[σ (2S)/σJ/ ]pp between p-Pb and proton-proton collisions.
Finally, the nuclear modification factor for inclusive ψ(2S) is evaluated and compared to
the measurement of the same quantity for J/ψ and to theoretical models including parton
shadowing and coherent energy loss mechanisms. The results show a significantly larger
suppression of the ψ(2S) compared to that measured for J/ψ and to models. These observations
represent a clear indication for sizeable final state effects on ψ(2S) production | Suppression of ψ(2S) production in p-Pb collisions at √sNN=5.02 TeV | suppression of ψ(2s) production in p-pb collisions at √snn=5.02 tev | alice inclusive charmonium proton collisions nucleon nucleon √snn cern lhc. ycms backward ycms rapidities studying decays muon pairs. inclusive ycms domains. proton proton collisions. modification inclusive quantity parton shadowing coherent mechanisms. suppression models. indication sizeable | non_dup | [] |
30810557 | 10.1007/jhep12(2014)121 | Supersymmetric models with R-parity violation (RPV) have become more popular following the lack of any excess of missing energy events at the 8 TeV LHC. To identify such models, the suggested searches generally rely on the decay products of the (effectively) lightest supersymmetric particle (LSP), with signals that depend on the identity of the LSP and the relevant RPV operators. Here we look at the prospects for detecting RPV chargino decays at the LHC and find substantial patches of parameter space in the Minimal Supersymmetric Standard Model with possibly spectacular signatures, such as three charged-lepton resonances | R-parity violating chargino decays at the LHC | r-parity violating chargino decays at the lhc | supersymmetric parity violation popular excess missing lhc. searches rely effectively lightest supersymmetric operators. look prospects detecting chargino decays substantial patches supersymmetric possibly spectacular signatures lepton resonances | non_dup | [] |
78059901 | 10.1007/jhep12(2014)176 | We study tree level scattering amplitudes of four massless states in the double scaled little string theory, and compare them to perturbative loop amplitudes in six-dimensional super-Yang-Mills theory. The little string amplitudes are computed from correlators in the cigar coset CFT and in N = 2 minimal models. The results are expressed in terms of integrals of conformal blocks and evaluated numerically in the α ′ expansion. We find striking agreements with up to 2-loop scattering amplitudes of massless gluons in 6D SU(k) SYM at a ℤ [subscript k] invariant point on the Coulomb branch. We comment on the issue of UV divergence at higher loop orders in the gauge theory and discuss the implication of our results.National Science Foundation (U.S.) (Award PHY-0847457)Harvard University (Fundamental Laws Initiative Fund | Little string amplitudes (and the unreasonable effectiveness of 6D SYM) | little string amplitudes (and the unreasonable effectiveness of 6d sym) | amplitudes massless scaled perturbative amplitudes super mills theory. amplitudes correlators cigar coset models. integrals conformal blocks numerically expansion. striking agreements amplitudes massless gluons subscript coulomb branch. comment divergence orders implication results.national foundation u.s. award harvard laws initiative fund | non_dup | [] |
55640069 | 10.1007/jhep12(2015)055 | A search is performed for narrow resonances decaying into WW, WZ, or ZZ boson pairs using 20.3 fb−1 of proton--proton collision data at a centre-of-mass energy of s√ = 8 TeV recorded with the ATLAS detector at the Large Hadron Collider. Diboson resonances with masses in the range from 1.3 to 3.0 TeV are sought after using the invariant mass distribution of dijets where both jets are tagged as a boson jet, compatible with a highly boosted W or Z boson decaying to quarks, using jet mass and substructure properties. The largest deviation from a smoothly falling background in the observed dijet invariant mass distribution occurs around 2 TeV in the WZ channel, with a global significance of 2.5 standard deviations. Exclusion limits at the 95% confidence level are set on the production cross section times branching ratio for the WZ final state of a new heavy gauge boson, W′, and for the WW and ZZ final states of Kaluza--Klein excitations of the graviton in a bulk Randall--Sundrum model, as a function of the resonance mass. W′ bosons with couplings predicted by the extended gauge model in the mass range from 1.3 to 1.5 TeV are excluded at 95% confidence level.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF, DNSRC and Lundbeck Foundation, Denmark; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, HGF, and MPG, Germany; GSRT, Greece; RGC, Hong Kong SAR, China; ISF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; RCN, Norway; MNiSW and NCN, Poland; FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MESTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SERI, SNSF and Cantons of Bern and Geneva, Switzerland; MOST, Taiwan; TAEK, Turkey; STFC, United Kingdom; DOE and NSF, United States of America. In addition, individual groups and members have received support from BCKDF, the Canada Council, CANARIE, CRC, Compute Canada, FQRNT, and the Ontario Innovation Trust, Canada; EPLANET, ERC, FP7, Horizon 2020 and Marie Sklodowska-Curie Actions, European Union; Investissements d'Avenir Labex and Idex, ANR, Region Auvergne and Fondation Partager le Savoir, France; DFG and AvH Foundation, Germany; Herakleitos, Thales and Aristeia programmes co-financed by EU-ESF and the Greek NSRF; BSF, GIF and Minerva, Israel; BRF, Norway; the Royal Society and Leverhulme Trust, United Kingdom | Search for high-mass diboson resonances with boson-tagged jets in proton-proton collisions at √s = 8TeV with the ATLAS detector | search for high-mass diboson resonances with boson-tagged jets in proton-proton collisions at √s = 8tev with the atlas detector | narrow resonances decaying boson proton proton collision atlas hadron collider. diboson resonances sought dijets jets tagged boson compatible boosted boson decaying quarks substructure properties. smoothly falling dijet deviations. exclusion confidence branching boson kaluza klein excitations graviton randall sundrum mass. bosons couplings excluded confidence level.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc lundbeck foundation denmark cnrs irfu gnsf georgia bmbf gsrt greece hong kong benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland portugal romania russia russian federation jinr mestd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden seri snsf cantons bern geneva switzerland taiwan taek turkey stfc kingdom america. bckdf canada council canarie canada fqrnt ontario innovation trust canada eplanet horizon marie sklodowska curie union investissements avenir labex idex auvergne fondation partager savoir foundation herakleitos thales aristeia programmes financed greek nsrf minerva israel norway royal leverhulme trust kingdom | non_dup | [] |
55640071 | 10.1007/jhep12(2015)061 | A search for flavour-changing neutral current decays of a top quark to an uptype quark (q = u, c) and the Standard Model Higgs boson, where the Higgs boson decays to bb¯¯, is presented. The analysis searches for top quark pair events in which one top quark decays to Wb, with the W boson decaying leptonically, and the other top quark decays to Hq. The search is based on pp collisions at s√=8 TeV recorded in 2012 with the ATLAS detector at the CERN Large Hadron Collider and uses an integrated luminosity of 20.3 fb−1. Data are analysed in the lepton-plus-jets final state, characterised by an isolated electron or muon and at least four jets. The search exploits the high multiplicity of b-quark jets characteristic of signal events, and employs a likelihood discriminant that uses the kinematic differences between the signal and the background, which is dominated by tt¯→WbWb decays. No significant excess of events above the background expectation is found, and observed (expected) 95% CL upper limits of 0.56% (0.42%) and 0.61% (0.64%) are derived for the t → Hc and t → Hu branching ratios respectively. The combination of this search with other ATLAS searches in the H → γγ and H → WW *, ττ decay modes significantly improves the sensitivity, yielding observed (expected) 95% CL upper limits on the t → Hc and t → Hu branching ratios of 0.46% (0.25%) and 0.45% (0.29%) respectively. The corresponding combined observed (expected) upper limits on the |λ tcH | and |λ tuH | couplings are 0.13 (0.10) and 0.13 (0.10) respectively. These are the most restrictive direct bounds on tqH interactions measured so far.We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWFW and FWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF, DNSRC and Lundbeck Foundation, Denmark; IN2P3-CNRS, CEA-DSM/IRFU, France; GNSF, Georgia; BMBF, HGF, and MPG, Germany; GSRT, Greece; RGC, Hong Kong SAR, China; ISF, I-CORE and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS, Japan; CNRST, Morocco; FOM and NWO, Netherlands; RCN, Norway; MNiSW and NCN, Poland; FCT, Portugal; MNE/IFA, Romania; MES of Russia and NRC KI, Russian Federation; JINR; MESTD, Serbia; MSSR, Slovakia; ARRS and MIZS, Slovenia; DST/NRF, South Africa; MINECO, Spain; SRC and Wallenberg Foundation, Sweden; SERI, SNSF and Cantons of Bern and Geneva, Switzerland; MOST, Taiwan; TAEK, Turkey; STFC, United Kingdom; DOE and NSF, United States of America. In addition, individual groups and members have received support from BCKDF, the Canada Council, CANARIE, CRC, Compute Canada, FQRNT, and the Ontario Innovation Trust, Canada; EPLANET, ERC, FP7, Horizon 2020 and Marie Sklodowska-Curie Actions, European Union; Investissements d'Avenir Labex and Idex, ANR, Region Auvergne and Fondation Partager le Savoir, France; DFG and AvH Foundation, Germany; Herakleitos, Thales and Aristeia programmes co-financed by EU-ESF and the Greek NSRF; BSF, GIF and Minerva, Israel; BRF, Norway; the Royal Society and Leverhulme Trust, United Kingdom | Search for flavour-changing neutral current top quark decays t → Hq in pp collisions at √s=8 TeV with the ATLAS detector | search for flavour-changing neutral current top quark decays t → hq in pp collisions at √s=8 tev with the atlas detector | flavour changing neutral decays uptype boson boson decays bb¯¯ presented. searches decays boson decaying leptonically decays collisions atlas cern hadron collider luminosity analysed lepton jets characterised muon jets. exploits multiplicity jets employs likelihood discriminant kinematic dominated tt¯→wbwb decays. excess expectation branching respectively. atlas searches improves yielding branching respectively. couplings respectively. restrictive bounds far.we acknowledge anpcyt argentina yerphi armenia australia bmwfw austria anas azerbaijan sstc belarus cnpq fapesp brazil nserc canada cern conicyt chile nsfc colciencias colombia msmt czech republic dnrf dnsrc lundbeck foundation denmark cnrs irfu gnsf georgia bmbf gsrt greece hong kong benoziyo israel infn mext jsps cnrst morocco netherlands norway mnisw poland portugal romania russia russian federation jinr mestd serbia mssr slovakia arrs mizs slovenia africa mineco spain wallenberg foundation sweden seri snsf cantons bern geneva switzerland taiwan taek turkey stfc kingdom america. bckdf canada council canarie canada fqrnt ontario innovation trust canada eplanet horizon marie sklodowska curie union investissements avenir labex idex auvergne fondation partager savoir foundation herakleitos thales aristeia programmes financed greek nsrf minerva israel norway royal leverhulme trust kingdom | non_dup | [] |
145642855 | 10.1007/jhep12(2017)086 | The existence of a second Higgs doublet in Nature could lead to a cosmological first order electroweak phase transition and explain the origin of the matter-antimatter asymmetry in the Universe. We explore the parameter space of such a two-Higgs-doublet-model and show that a first order electroweak phase transition strongly correlates with a significant uplifting of the Higgs vacuum w.r.t. its Standard Model value. We then obtain the spectrum and properties of the new scalars H0, A0 and H± that signal such a phase transition, showing that the decay A0 → H0Z at the LHC and a sizable deviation in the Higgs self-coupling λhhh from its SM value are sensitive indicators of a strongly first order electroweak phase transition in the 2HDM | The Higgs vacuum uplifted: revisiting the electroweak phase transition with a second Higgs doublet | the higgs vacuum uplifted: revisiting the electroweak phase transition with a second higgs doublet | doublet cosmological electroweak antimatter asymmetry universe. explore doublet electroweak correlates uplifting w.r.t. value. scalars sizable λhhh indicators electroweak | non_dup | [] |
29555747 | 10.1007/lrr-2015-3 | The article reviews the current state of the field, and also presents new
analyses especially with respect to the impact of seismic scattering on gravity
perturbations, active gravity noise cancellation, and time-domain models of
gravity perturbations from atmospheric and seismic point sources. Our
understanding of terrestrial gravity fluctuations will have great impact on the
future development of GW detectors and high-precision gravimetry in general,
and many open questions need to be answered still as emphasized in this
article.Comment: 151 pages, 52 figures; submitted to Living Reviews in Relativit | Terrestrial Gravity Fluctuations | terrestrial gravity fluctuations | reviews presents seismic perturbations cancellation perturbations seismic sources. terrestrial great detectors precision gravimetry answered emphasized pages submitted living reviews relativit | non_dup | [] |
29532466 | 10.1007/lrsp-2015-2 | We review our state of knowledge of coronal element abundance anomalies in
the Sun and stars. We concentrate on the first ionization potential (FIP)
effect observed in the solar corona and slow-speed wind, and in the coronae of
solar-like dwarf stars, and the "inverse FIP" effect seen in the corona of
stars of later spectral type; specifically M dwarfs. These effects relate to
the enhancement or depletion, respectively, in coronal abundance with respect
to photospheric values of elements with FIP below about 10~eV. They are
interpreted in terms of the ponderomotive force due to the propagation and/or
reflection of magnetohydrodynamic waves in the chromosphere. This acts on
chromospheric ions, but not neutrals, and so can lead to ion-neutral
fractionation.
A detailed description of the model applied to closed magnetic loops, and to
open field regions is given, accounting for the observed difference in solar
FIP fractionation between the slow and fast wind. It is shown that such a model
can also account for the observed depletion of helium in the solar wind. The
helium depletion is sensitive to the chromospheric altitude where ion-neutral
separation occurs, and the behavior of the helium abundance in the closed
magnetic loop strongly suggests that the waves have a coronal origin. This, and
other similar inferences may be expected to have a strong bearing on theories
of solar coronal heating.
Chromospheric waves originating from below as acoustic waves mode convert,
mainly to fast mode waves, can also give rise to ion-neutral separation.
Depending on the geometry of the magnetic field, this can result in FIP or
Inverse FIP effects. We argue that such configurations are more likely to occur
in later-type stars (known to have stronger field in any case), and that this
explains the occurrence of the Inverse FIP effect in M dwarfs.Comment: Review paper submitted to Living Reviews in Solar Physics. 74 pages.
Some material revised and updated from astro-ph/0405230, arXiv:0901.3350,
arXiv:1110.435 | The FIP and Inverse FIP Effects in Solar and Stellar Coronae | the fip and inverse fip effects in solar and stellar coronae | coronal abundance anomalies stars. concentrate ionization corona slow coronae dwarf corona dwarfs. relate enhancement depletion coronal abundance photospheric interpreted ponderomotive propagation reflection magnetohydrodynamic chromosphere. acts chromospheric neutrals neutral fractionation. loops accounting fractionation slow wind. depletion helium wind. helium depletion chromospheric altitude neutral helium abundance coronal origin. inferences bearing coronal heating. chromospheric originating acoustic convert neutral separation. effects. argue configurations stronger explains occurrence submitted living reviews physics. pages. revised updated astro | non_dup | [] |
42673141 | 10.1007/lrsp-2015-8 | This article reviews our current understanding of modelling convection
dynamics in stars. Several semi-analytical time-dependent convection models
have been proposed for pulsating one-dimensional stellar structures with
different formulations for how the convective turbulent velocity field couples
with the global stellar oscillations. In this review we put emphasis on two,
widely used, time-dependent convection formulations for estimating pulsation
properties in one-dimensional stellar models. Applications to pulsating stars
are presented with results for oscillation properties, such as the effects of
convection dynamics on the oscillation frequencies, or the stability of
pulsation modes, in classical pulsators and in stars supporting solar-type
oscillations.Comment: Invited review article for Living Reviews in Solar Physics. 88 pages,
14 figure | Interaction Between Convection and Pulsation | interaction between convection and pulsation | reviews convection stars. convection pulsating formulations convective turbulent couples oscillations. emphasis widely convection formulations estimating pulsation models. pulsating oscillation convection oscillation pulsation pulsators supporting invited living reviews physics. pages | non_dup | [] |
2590355 | 10.1007/s-10998-007-1099-0 | A polytope in a finite-dimensional normed space is subequilateral if the
length in the norm of each of its edges equals its diameter. Subequilateral
polytopes occur in the study of two unrelated subjects: surface energy
minimizing cones and edge-antipodal polytopes. We show that the number of
vertices of a subequilateral polytope in any d-dimensional normed space is
bounded above by (d/2+1)^d for any d >= 2. The same upper bound then follows
for the number of vertices of the edge-antipodal polytopes introduced by
I.Talata (Period. Math. Hungar. 38 (1999), 231--246). This is a constructive
improvement to the result of A.P\'or (to appear) that for each dimension d
there exists an upper bound f(d) for the number of vertices of an
edge-antipodal d-polytopes. We also show that in d-dimensional Euclidean space
the only subequilateral polytopes are equilateral simplices.Comment: 7 page | Upper bounds for edge-antipodal and subequilateral polytopes | upper bounds for edge-antipodal and subequilateral polytopes | polytope normed subequilateral norm equals diameter. subequilateral polytopes unrelated minimizing cones antipodal polytopes. subequilateral polytope normed antipodal polytopes i.talata period. math. hungar. constructive antipodal polytopes. euclidean subequilateral polytopes equilateral | non_dup | [] |
153513466 | 10.1007/s.11270-013-1770-3 | There are growing concerns about the increasing trends of emerging micropollutants in the environment due to their potential negative impacts on natural ecosystems and humans. This has attracted attention from both governmental and non-governmental organisations worldwide. Pharmaceuticals, personal care products, and endocrine disruptors are continuously being released consciously or unconsciously into water sources due to poor regulatory frameworks especially in the developing countries. The effects of these contaminants are poorly known. They are not easily biodegradable and have become an environmental nuisance and public health issue. This has heightened the risk of exposure to their deleterious effects in such countries where the majority of the population are still struggling to have access to good quality drinking water supplies and better sanitation. With the rising fear of short- and long-term impacts of the ever-increasing number of persistent recalcitrant organic compounds accumulating in the environment, their removal is gradually becoming an issue to the water treatment industry. Hence, there is a need to develop functional techniques for the management of water contaminated by these emerging contaminants so as to increase the availability and access to safe and good-quality drinking water. We conducted a narrative review on these emerging micropollutants and examined their various documented sources, effects, as well as recent techniques for their effective removal. This becomes necessary due to the increasing occurrence of these pollutants in the aquatic and terrestrial environment. These levels are expected to further increase in the coming years as a consequence of the ever-increasing population density which undoubtedly characterizes developing economies. Our findings show that the present reported treatment techniques in the literature such as biological oxidation/biodegradation, coagulation/flocculation, ozonation, el ectrodialysis, reverse osmosis, sedimentation, filtration, and activated carbon were not designed for removal of these newly identified contaminants, and as such, the techniques are not sufficient and unable to completely degrade the compounds. We therefore recommended the need for concerted efforts to develop better techniques, especially combined advanced oxidative methods to address the shortcomings of and growing challenge to current practices.Web of Scienc | A review of pharmaceuticals and endocrine-disrupting compounds: sources, effects, removal, and detections | a review of pharmaceuticals and endocrine-disrupting compounds: sources, effects, removal, and detections | growing concerns emerging micropollutants impacts ecosystems humans. attracted governmental governmental organisations worldwide. pharmaceuticals personal endocrine disruptors continuously released consciously unconsciously regulatory frameworks countries. contaminants poorly known. biodegradable nuisance issue. heightened deleterious majority struggling drinking supplies sanitation. rising fear impacts ever persistent recalcitrant accumulating removal gradually becoming industry. contaminated emerging contaminants availability safe drinking water. narrative emerging micropollutants documented removal. occurrence pollutants aquatic terrestrial environment. coming ever undoubtedly characterizes economies. oxidation biodegradation coagulation flocculation ozonation ectrodialysis reverse osmosis sedimentation filtration removal newly contaminants unable degrade compounds. recommended concerted efforts advanced oxidative shortcomings growing challenge practices.web scienc | non_dup | [] |
36054792 | 10.1007/s00003-006-0035-0 | The presence of biogenic amines in foods is of considerable\ud
public concern for the food industry and the regulatory\ud
agencies, since given the potential health hazard, there is a\ud
growing demand from consumers and control authorities to reduce\ud
the allowable limits of biogenic amines in foods and beverages.\ud
Rapid and simple methods are needed for the analysis\ud
of the ability to form biogenic amines by bacteria in order to\ud
evaluate the potential risk of bacterial occurring in some food\ud
products. Analytical chromatographic methods used for routine\ud
biogenic amine analysis of food substrates have been applied\ud
to bacterial cultures. Specifi c differential culture media for the\ud
presumptive identifi cation of biogenic amine-producer bacteria\ud
have been developed. Recently, several PCR based methods targeting\ud
amino acid decarboxylases have been described. These\ud
latter molecular methods, in addition to its rapidity and specifi city,\ud
offer the advantage of the identifi cation of producer bacteria\ud
before the amine is synthesizedThis work was supported by grant AGL2005-00470 from the\ud
CICYT and RM03-002 from INIA. The technical assistance ofM. V. Santamaría and A. Gómez is greatly appreciated. A. Marcobal\ud
was a recipient of a predoctoral fellowship and B. de las\ud
Rivas of a postdoctoral fellowship both from the Comunidad de\ud
Madrid.Peer reviewe | Improved multiplex-PCR method for the simultaneous detection of food bacteria producing biogenic amines | improved multiplex-pcr method for the simultaneous detection of food bacteria producing biogenic amines | biogenic amines foods considerable concern regulatory agencies hazard growing consumers authorities allowable biogenic amines foods beverages. biogenic amines bacteria bacterial occurring products. chromatographic routine biogenic amine substrates bacterial cultures. specifi presumptive identifi cation biogenic amine producer bacteria developed. targeting decarboxylases described. rapidity specifi city offer advantage identifi cation producer bacteria amine synthesizedthis cicyt inia. assistance ofm. santamaría gómez greatly appreciated. marcobal recipient predoctoral fellowship rivas postdoctoral fellowship comunidad madrid.peer reviewe | non_dup | [] |
55758931 | 10.1007/s00003-007-0245-0 | To estimate the introgressive hybridisation propensity (IHP) between transgenic oilseed rape and certain of its cross-compatible wild/weedy relatives at the landscape level, a conceptual approach was developed. A questionnaire was established enclosing the successive steps to successfully achieve introgressive hybridisation. Each step was described and scored, resulting in an IHP value for each cross-compatible wild/weedy relative. This approach revealed that in Flanders (Belgium) Brassica rapa has the highest IHP value, followed by Hirschfeldia incana, Diplotaxis tenuifolia, Raphanus raphanistrum and Sinapis arvensis. Using these values, monitoring priorities can be defined within the pool of cross-compatible wild/weedy oilseed rape relatives. It is discussed how the numerical quantification may serve as a valuable tool in case-specific monitoring and general surveillance of transgenic oilseed rape | Using an oilseed rape x wild/weedy relative gene flow index for the monitoring of transgenic oilseed rape | using an oilseed rape x wild/weedy relative gene flow index for the monitoring of transgenic oilseed rape | introgressive hybridisation propensity transgenic oilseed rape compatible weedy relatives landscape conceptual developed. questionnaire enclosing successive successfully introgressive hybridisation. scored compatible weedy relative. flanders belgium brassica rapa hirschfeldia incana diplotaxis tenuifolia raphanus raphanistrum sinapis arvensis. priorities pool compatible weedy oilseed rape relatives. quantification serve valuable surveillance transgenic oilseed rape | non_dup | [] |
146459735 | 10.1007/s00003-011-0674-7 | In cost-benefit analyses of pesticide use an area-based measure of both costs and benefits is needed for spatial analysis of net benefits. The pesticide environmental accounting (PEA) tool provides a monetary estimate of environmental and health impacts per hectare-application of pesticide (Leach and Mumford 2008). The model combines the Environmental Impact Quotient method (rating human health and eco-toxicological behaviour of specific pesticides) with absolute estimates of external pesticide costs in the UK, USA and Germany. The model converts external costs of a pesticide to other countries using GDP per capita and % GDP from agriculture. For many countries, resources are not available for intensive assessments of external pesticide costs. Economic and policy applications include rationalising pesticide choice, estimating impacts of pesticide reduction policies or calculating benefits from technologies that replace pesticides [sterile insect technique (SIT) or biological pesticides such as Metarhizium]. PEA is a logical integration of diverse data and approaches. The assumptions provide transparency and consistency but at the cost of specificity and precision, a reasonable trade-off for a method that provides both comparative estimates of pesticide impacts and area-based assessments of absolute impacts. The method has been applied to cost-benefit analyses of SIT in fruit flies (two species) and pesticide choice in Desert Locust (DL) campaigns in Africa. An example of external cost calculations for sugar beet herbicides in Europe is presented. There are also planned uses in public health mosquito control | Pesticide Environmental Accounting: A decision-making tool estimating external costs of pesticides | pesticide environmental accounting: a decision-making tool estimating external costs of pesticides | benefit pesticide benefits benefits. pesticide accounting monetary impacts hectare pesticide leach mumford combines quotient rating toxicological pesticides pesticide germany. converts pesticide capita agriculture. intensive assessments pesticide costs. rationalising pesticide estimating impacts pesticide policies calculating benefits technologies replace pesticides sterile insect pesticides metarhizium logical diverse approaches. assumptions transparency consistency specificity precision reasonable trade comparative pesticide impacts assessments impacts. benefit fruit flies pesticide desert locust campaigns africa. sugar beet herbicides europe presented. planned mosquito | non_dup | [] |
36122053 | 10.1007/s00004-013-0164-6 | 13 pages, 8 figures.A statistical analysis of the orientation of Nabatean sacred monuments demonstrates that astronomical orientations were often part of an elaborated plan and possibly a trace of the astral nature of the Nabataean religion. Petra and other monuments in the ancient Nabataean kingdom have proven to be marvellous laboratories for the interaction between landscape features and astronomical events, showing impressive hierophanies on particular monuments related to cultic times and worships. Among other findings, the famous Ad Deir has shown a fascinating ensemble of light and shadow effects, perhaps connected with the bulk of Nabataean mythology, while from the impressive Urn Tomb, a series of suggestive solstitial and equinoctial alignments emanate which might have lately helped its selection as the cathedral of the city. This paper demonstrates that the sky was a substantial element in Nabataean religion and reveals new evidence for cultic worship centred on the celestial sphere.Peer reviewe | Light and Shadows over Petra: astronomy and landscape in Nabataean lands | light and shadows over petra: astronomy and landscape in nabataean lands | pages figures.a nabatean sacred monuments demonstrates astronomical orientations elaborated plan possibly trace astral nabataean religion. petra monuments ancient nabataean kingdom proven marvellous laboratories landscape astronomical impressive hierophanies monuments cultic worships. famous deir fascinating ensemble shadow perhaps nabataean mythology impressive tomb suggestive solstitial equinoctial alignments emanate lately helped cathedral city. demonstrates substantial nabataean religion reveals cultic worship centred celestial sphere.peer reviewe | non_dup | [] |
39323417 | 10.1007/s00004-014-0202-z | In the wake of the conquest of the New World by the Spanish crown at the end of the fifteenth century, the expansionist interests of the other major European powers had become so invasive as to convince the Spanish King Philip II of the need to develop a systematic project for the military defense of the most important ports and coastal areas of his new overseas colonies. Italian military engineer Battista Antonelli was the first to apply the methods and procedures of Renaissance military architecture to the construction of Philip’s fortifications in the New World. This paper analyses two important works of fortification that he designed and built in the city of Havana between the end of the sixteenth century and the beginning of the seventeenth: the Castillo de los Tres Reyes del Morro and the Castillo San Salvador de la Punta. Their completion not only introduced the European Renaissance culture of military architecture to the island, but also had a strong impact on the urban development of the city in general and its relationship with the surrounding territory | Geometry and Genius Loci: Battista Antonelli’s Fortifications in Havana | geometry and genius loci: battista antonelli’s fortifications in havana | wake conquest spanish crown fifteenth century expansionist interests powers invasive convince spanish king philip military defense ports coastal overseas colonies. italian military engineer battista antonelli renaissance military architecture philip’s fortifications world. fortification built city havana sixteenth century beginning seventeenth castillo tres reyes morro castillo salvador punta. completion renaissance military architecture island city surrounding territory | non_dup | [] |
160051030 | 10.1007/s00004-018-0388-6 | This article contains a first metrological analysis of the Late Roman Fort of Umm al-Dabadib, built at the beginning of the 4th century AD at the outskirts of the Kharga Oasis, in the Egyptian Western Desert. This site is currently under study by the Italian Archaeological Mission to Umm al-Dabadib; after completing the 3D survey of the building, the team moved to the study of its dimensional patterns. The resulting 3D model was tested for the use of Roman and Egyptian units of measurement, and revealed that the building was planned and built according to the Egyptian Reformed Cubit. The Fort of Umm al-Dabadib, therefore, currently represents the latest attestation of the use of the Egyptian cubit in architecture | A metrological study of the Late Roman Fort of Umm al-Dabadib, Kharga Oasis (Egypt) | a metrological study of the late roman fort of umm al-dabadib, kharga oasis (egypt) | metrological roman fort dabadib built beginning century outskirts kharga oasis egyptian desert. italian archaeological mission dabadib completing team moved patterns. roman egyptian planned built egyptian reformed cubit. fort dabadib latest attestation egyptian cubit architecture | non_dup | [] |
29843742 | 10.1007/s00005-013-0244-z | Open Access: This article is distributed under the terms of the Creative Commons Attribution License which permits any use, distribution, and reproduction in any medium, provided the original author(s) and the source are creditedPreterm infants are very susceptible to infections. Immune response mechanisms in this group of patients and factors that influence cord blood mononuclear cell populations remain poorly understood and are considered insufficient. However, competent immune functions of the cord blood mononuclear cells are also described. The aim of this work was to evaluate the T-cell population (CD3+) with its subpopulations bearing T-cell receptor (TCR) ???? or TCR ???? in the cord blood of preterm infants born before 32 weeks of gestation by mothers with or without an intrauterine infection. Being a pilot study, it also aimed at feasibility check and assessment of an expected effect size. The cord blood samples of 46 infants age were subjected to direct immunofluorescent staining with monoclonal antibodies and then analyzed by flow cytometry. The percentage of CD3+ cells in neonates born by mothers with diagnosis of intrauterine infection was significantly lower than in neonates born by mothers without infection (p = 0.005; Mann-Whitney U test). The number of cells did not differ between groups. Infection present in the mother did not have an influence on the TCR ???? or TCR ???? subpopulations. Our study contributes to a better understanding of preterm infants' immune mechanisms, and sets the stage for further investigations | T-cell subpopulations ???? and ???? in cord blood of very preterm infants :
The influence of intrauterine infection | t-cell subpopulations ???? and ???? in cord blood of very preterm infants : the influence of intrauterine infection | creative commons attribution permits reproduction creditedpreterm infants susceptible infections. immune cord mononuclear poorly understood insufficient. competent immune cord mononuclear described. subpopulations bearing cord preterm infants born gestation mothers intrauterine infection. pilot aimed feasibility check size. cord infants subjected immunofluorescent staining monoclonal antibodies cytometry. neonates born mothers intrauterine neonates born mothers mann whitney groups. mother subpopulations. contributes preterm infants immune investigations | non_dup | [] |
37741576 | 10.1007/s00005-014-0288-8 | Food allergy is a common condition that plays an important role in the pathogenicity and maintenance of atopic dermatitis (AD), however, must be carefully investigated before imposing a restrictive diet. the aim of this study was to evaluate the sensitivity to foods in patients with AD, correlating it with the severity of the disease and other possible associated factors. One hundred and eleven children (6-180 months of age) with AD were evaluated and later followed up at the Allergy and Clinical Immunology Division, Department of Pediatrics at FMABC. the serum concentrations of specific IgE to cow's milk (CM), egg, soy, wheat, corn, peanut and fish were measured using an enzymatic fluorescence method (ImmunoCAP (TM)). in order to identify the clinical reactivity, the open oral provocation test was performed when specific IgE was positive to CM, egg and wheat and in all those who related symptoms after the intake of such foods regardless of the presence or absence of sensitization. in total, 40.5 % of the studied population was sensitized to at least one food allergen, especially those between 73 and 180 months of age. There was a higher prevalence of sensitization in children with more severe AD, and foods like CM, egg and wheat were the most involved, but with low clinical reactivity. We observed increased severity of AD in cases that initiated symptoms earlier and who had shorter duration of exclusive breastfeeding as well as a linear increase in sensitization in the most serious cases. Serum-specific immunoglobulin E was the only factor associated with the relationship that showed sensitization. the occurrence of sensitization to foods was frequent, mainly in the age group of 6-9 years and in patients with severe AD; however, the validation of the clinical reactivity was negative in most of the provocations performed, which agrees with the need to prove the same before the imposition of restrictive diets, often unnecessary and complex.Assoc Brasileira Alergia & Imunopatol ASBAI, FMABC, São Paulo, BrazilUniversidade Federal de São Paulo, FMABC, São Paulo, BrazilFMABC, Dept Pediat, São Paulo, BrazilUniversidade Federal de São Paulo, FMABC, São Paulo, BrazilWeb of Scienc | Response of Specific Immunoglobulin E to Foods in Children with Atopic Dermatitis | response of specific immunoglobulin e to foods in children with atopic dermatitis | allergy plays pathogenicity maintenance atopic dermatitis carefully imposing restrictive diet. foods correlating severity factors. hundred eleven allergy immunology division pediatrics fmabc. milk wheat corn peanut fish enzymatic fluorescence immunocap reactivity oral provocation wheat intake foods regardless sensitization. sensitized allergen age. prevalence sensitization foods wheat reactivity. severity initiated shorter exclusive breastfeeding sensitization serious cases. immunoglobulin sensitization. occurrence sensitization foods frequent validation reactivity provocations agrees imposition restrictive diets unnecessary complex.assoc brasileira alergia imunopatol asbai fmabc paulo braziluniversidade federal paulo fmabc paulo brazilfmabc dept pediat paulo braziluniversidade federal paulo fmabc paulo brazilweb scienc | non_dup | [] |
43619490 | 10.1007/s00005-015-0371-9 | Published version. Source at <a href=http://doi.org/10.1007/s00005-015-0371-9>http://doi.org/10.1007/s00005-015-0371-9</a>.Fetal/neonatal alloimmune thrombocytopenia (FNAIT) is a relatively rare condition (1/1000–1/2000) that was granted orphan status by the European Medicines Agency in 2011. Clinical consequences of FNAIT, however, may be severe. A thrombocytopenic fetus or new-born is at risk of intracranial hemorrhage that may result in lifelong disability or death. Preventing such bleeding is thus vital and requires a solution. Anti-HPA1a antibodies are the most frequent cause of FNAIT in Caucasians. Its pathogenesis is similar to hemolytic disease of the newborn (HDN) due to anti-RhD antibodies, but is characterized by platelet destruction and is more often observed in the first pregnancy. In 75 % of these women, alloimmunization by HPA-1a antigens, however, occurs at delivery, which enables development of antibody-mediated immune suppression to prevent maternal immunization. As for HDN, the recurrence rate of FNAIT is high. For advancing diagnostic efforts and treatment, it is thereby crucial to understand the pathogenesis of FNAIT, including cellular immunity involvement. This review presents the current knowledge on FNAIT. Also described is a program for HPA-1a screening in identifying HPA-1a negative pregnant women at risk of immunization. This program is now performed at the Institute of Hematology and Transfusion Medicine in cooperation with the Department of Obstetrics and Gynecology of the Medical Centre of Postgraduate Education in Warsaw as well as the UiT The Arctic University of Norway | Fetal/Neonatal Alloimmune Thrombocytopenia: Pathogenesis, Diagnostics and Prevention | fetal/neonatal alloimmune thrombocytopenia: pathogenesis, diagnostics and prevention | version. href .fetal neonatal alloimmune thrombocytopenia fnait rare granted orphan medicines agency consequences fnait severe. thrombocytopenic fetus born intracranial hemorrhage lifelong disability death. preventing bleeding vital solution. antibodies frequent fnait caucasians. pathogenesis hemolytic newborn antibodies platelet destruction pregnancy. alloimmunization antigens delivery enables immune suppression prevent maternal immunization. recurrence fnait high. advancing diagnostic efforts thereby crucial pathogenesis fnait immunity involvement. presents fnait. screening identifying pregnant immunization. hematology transfusion cooperation obstetrics gynecology postgraduate warsaw arctic norway | non_dup | [] |
46964046 | 10.1007/s00005-015-0382-6 | Rho-associated coiled-coil kinase (ROCK) is a major downstream effector of the small GTPase RhoA. The ROCK family, consisting of ROCK1 and ROCK2, plays a central role in the organization of the actin cytoskeleton, and is involved in a wide range of fundamental cellular functions such as contraction, adhesion, migration, proliferation, and apoptosis. Since the discovery of effective inhibitors such as fasudil and Y27632, the biological roles of ROCK have been extensively explored in numerous diseases, including cancer. Accumulating evidence supports the concept that ROCK plays important roles in tumor development and progression through regulating many key cellular functions associated with malignancy, including tumorigenicity, tumor growth, metastasis, angiogenesis, tumor cell apoptosis/survival and chemoresistance as well. This review focuses on the new advances of the most recent 5 years from the studies on the roles of ROCK in cancer development and progression; the discussion is mainly focused on the potential value of ROCK inhibitors in cancer therapy | Novel Insights into the Roles of Rho Kinase in Cancer | novel insights into the roles of rho kinase in cancer | coiled coil rock downstream effector gtpase rhoa. rock consisting rock rock plays actin cytoskeleton contraction adhesion migration proliferation apoptosis. discovery inhibitors fasudil roles rock extensively explored numerous cancer. accumulating supports rock plays roles progression regulating malignancy tumorigenicity metastasis angiogenesis apoptosis chemoresistance well. focuses advances roles rock progression focused rock inhibitors | non_dup | [] |
24937533 | 10.1007/s00006-000-0005-z | A new type of deformation for microscopic laser disks, the
\textit{equiangular spiral deformation} is proposed. First a short review of
the geometry of light paths in equiangular spirals in the language of real
two-dimensional geometric calculus is given. Second, the constituting equations
for \textit{closed paths} inside equiangular spirals are derived. Third, their
numerical solution is performed and found to yield two generic types of closed
light paths. \textit{Degenerate} closed paths that exist over large intervals
of the deformation parameter, and \textit{nondegenerate} closed paths which
only exist over relatively small deformation parameter intervals spanning less
than 1% of the nondegenerate intervals. Fourth, amongst the nondegenerate paths
a \textit{stable asymmetric bow-tie} shaped light trajectory was found.Comment: 36 pages, 18 figure | Closed Light Paths in Equiangular Spiral Disks | closed light paths in equiangular spiral disks | deformation microscopic disks textit equiangular spiral deformation proposed. paths equiangular spirals geometric calculus given. constituting textit paths equiangular spirals derived. generic paths. textit degenerate paths intervals deformation textit nondegenerate paths deformation intervals spanning nondegenerate intervals. fourth amongst nondegenerate paths textit asymmetric shaped trajectory pages | non_dup | [] |
1958819 | 10.1007/s00006-004-0015-3 | We introduce the set of bicomplex numbers $\mathbb{T}$ which is a commutative
ring with zero divisors defined by $\mathbb{T}=\{w_0+w_1
\bold{i_1}+w_2\bold{i_2}+w_3 \bold{j}| w_0,w_1,w_2,w_3 \in \mathbb{R}\}$ where
$\bold{i^{\text 2}_1}=-1, \bold{i^{\text 2}_2}=-1, \bold{j}^2=1,\
\bold{i_1}\bold{i_2}=\bold{j}=\bold{i_2}\bold{i_1}$. We present the conjugates
and the moduli associated with the bicomplex numbers. Then we study the
bicomplex Schr\"odinger equation and found the continuity equations. The
discrete symmetries of the system of equations describing the bicomplex
Schr\"odinger equation are obtained. Finally, we study the bicomplex Born
formulas under the discrete symetries. We obtain the standard Born's formula
for the class of bicomplex wave functions having a null hyperbolic angle | Bicomplex quantum mechanics: I. The generalized Schr\"odinger equation | bicomplex quantum mechanics: i. the generalized schr\"odinger equation | bicomplex mathbb commutative divisors mathbb bold bold bold mathbb bold bold bold bold bold bold bold bold conjugates moduli bicomplex numbers. bicomplex schr odinger continuity equations. symmetries describing bicomplex schr odinger obtained. bicomplex born formulas symetries. born bicomplex hyperbolic | non_dup | [] |
2554814 | 10.1007/s00006-005-0009-9 | CLIFFORD performs various computations in Grassmann and Clifford algebras. It
can compute with quaternions, octonions, and matrices with entries in Cl(B) -
the Clifford algebra of a vector space V endowed with an arbitrary bilinear
form B. Two user-selectable algorithms for Clifford product are implemented:
'cmulNUM' - based on Chevalley's recursive formula, and 'cmulRS' - based on
non-recursive Rota-Stein sausage. Grassmann and Clifford bases can be used.
Properties of reversion in undotted and dotted wedge bases are discussed.Comment: 24 pages, update contains new material included in published versio | Mathematics of CLIFFORD - A Maple package for Clifford and Grassmann
algebras | mathematics of clifford - a maple package for clifford and grassmann algebras | clifford performs computations grassmann clifford algebras. quaternions octonions entries clifford endowed bilinear selectable clifford implemented cmulnum chevalley recursive cmulrs recursive rota stein sausage. grassmann clifford bases used. reversion undotted dotted wedge bases pages update versio | non_dup | [] |
2585193 | 10.1007/s00006-006-0005-8 | The roots of -1 in the set of biquaternions (quaternions with complex
components, or complex numbers with quaternion real and imaginary parts) are
studied and it is shown that there is an infinite number of non-trivial
complexified quaternion roots (and two degenerate solutions which are the
complex imaginary operator and the set of unit pure real quaternions). The
non-trivial roots are shown to consist of complex numbers with perpendicular
pure quaternion real and imaginary parts. The moduli of the two perpendicular
pure quaternions are expressible by a single parameter via a hyperbolic
trigonometric identity | Biquaternion (complexified quaternion) roots of -1 | biquaternion (complexified quaternion) roots of -1 | roots biquaternions quaternions quaternion imaginary infinite trivial complexified quaternion roots degenerate imaginary quaternions trivial roots consist perpendicular quaternion imaginary parts. moduli perpendicular quaternions expressible hyperbolic trigonometric | non_dup | [] |
2557618 | 10.1007/s00006-006-0006-7 | This paper is intended to investigate Grassmann and Clifford algebras over
Peano spaces, introducing their respective associated extended algebras, and to
explore these concepts also from the counterspace viewpoint. The exterior
(regressive) algebra is shown to share the exterior (progressive) algebra in
the direct sum of chiral and achiral subspaces. The duality between scalars and
volume elements, respectively under the progressive and the regressive products
is shown to have chirality, in the case when the dimension n of the Peano space
is even. In other words, the counterspace volume element is shown to be a
scalar or a pseudoscalar, depending on the dimension of the vector space to be
respectively odd or even. The de Rham cochain associated with the differential
operator is constituted by a sequence of exterior algebra homogeneous subspaces
subsequently chiral and achiral. Thus we prove that the exterior algebra over
the space and the exterior algebra constructed on the counterspace are only
pseudoduals each other, when we introduce chirality. The extended Clifford
algebra is introduced in the light of the periodicity theorem of Clifford
algebras context, wherein the Clifford and extended Clifford algebras Cl(p,q)
can be embedded in Cl(p+1,q+1), which is shown to be exactly the extended
Clifford algebra. Clifford algebras are constructed over the counterspace, and
the duality between progressive and regressive products is presented using the
dual Hodge star operator. The differential and codifferential operators are
also defined for the extended exterior algebras from the regressive product
viewpoint, and it is shown they uniquely tumble right out progressive and
regressive exterior products of 1-forms.Comment: 17 pages, to appear in Adv. Appl. Clifford Algebras 16 (3) (2006 | Extended Grassmann and Clifford algebras | extended grassmann and clifford algebras | intended grassmann clifford algebras peano introducing respective algebras explore concepts counterspace viewpoint. exterior regressive share exterior progressive chiral achiral subspaces. duality scalars progressive regressive chirality peano even. counterspace pseudoscalar even. rham cochain constituted exterior homogeneous subspaces subsequently chiral achiral. exterior exterior counterspace pseudoduals chirality. clifford periodicity clifford algebras wherein clifford clifford algebras embedded clifford algebra. clifford algebras counterspace duality progressive regressive hodge operator. codifferential exterior algebras regressive viewpoint uniquely tumble progressive regressive exterior pages adv. appl. clifford algebras | non_dup | [] |
2662110 | 10.1007/s00006-006-0008-5 | Using the bicomplex numbers $\mathbb{T}$ which is a commutative ring with
zero divisors defined by $\mathbb{T}=\{w_0 + w_1 i_1 + w_2 i_2 + w_3 j | w_0,
w_1, w_2, w_3 \in \mathbb{R}\}$ where $i_{1}^{2} = -1, i_{2}^{2} = -1, j^2 = 1,
i_1 i_2 = j = i_2 i_1$, we construct hyperbolic and bicomplex Hilbert spaces.
Linear functionals and dual spaces are considered and properties of linear
operators are obtained; in particular it is established that the eigenvalues of
a bicomplex self-adjoint operator are in the set of hyperbolic numbers.Comment: 25 pages, no figur | Bicomplex Quantum Mechanics: II. The Hilbert Space | bicomplex quantum mechanics: ii. the hilbert space | bicomplex mathbb commutative divisors mathbb mathbb hyperbolic bicomplex hilbert spaces. functionals eigenvalues bicomplex adjoint hyperbolic pages figur | non_dup | [] |
2558457 | 10.1007/s00006-006-0014-7 | Maxwell's equations with massive photons and magnetic monopoles are
formulated using spacetime algebra. It is demonstrated that a single
non-homogeneous multi-vectorial equation describes the theory. Two limiting
cases are considered and their symmetries highlighted: massless photons with
magnetic monopoles and finite photon mass in the absence of monopoles. Finally,
it is shown that the EM-duality invariance is a symmetry of the Hamiltonian
density (for Minkowskian spacetime) and Lagrangian density (for Euclidean
4-space) that reflects the signature of the respective metric manifold.Comment: 10 pages, no figure | The Spacetime Algebra Approach to Massive Classical Electrodynamics with
Magnetic Monopoles | the spacetime algebra approach to massive classical electrodynamics with magnetic monopoles | maxwell massive photons monopoles formulated spacetime algebra. homogeneous vectorial describes theory. limiting symmetries highlighted massless photons monopoles monopoles. duality invariance minkowskian spacetime lagrangian euclidean reflects signature respective pages | non_dup | [] |
2664476 | 10.1007/s00006-006-0020-9 | Using the Clifford algebra formalism we extend the quantum jumps algorithm of
the Event Enhanced Quantum Theory (EEQT) to convex state figures other than
those stemming from convex hulls of complex projective spaces that form the
basis for the standard quantum theory. We study quantum jumps on n-dimensional
spheres, jumps that are induced by symmetric configurations of non-commuting
state monitoring detectors. The detectors cause quantum jumps via geometrically
induced conformal maps (Mobius transformations) and realize iterated function
systems (IFS) with fractal attractors located on n-dimensional spheres. We also
extend the formalism to mixed states, represented by "density matrices". As a
numerical illustration we study quantum fractals on the circle, two--sphere
(octahedron), and on three-dimensional sphere (hypercube-tesseract, 24 cell,
600 cell,and 120 cell). The invariant measure on the attractor is approximated
by the powers of the Markov operator. In the appendices we calculate the
Radon-Nikodym derivative of the SO(n+1) invariant measure on S^n under
SO(1,n+1) transformations and discuss the Hamilton's "icossian calculus" as
well as its application to quaternionic realization of the binary icosahedral
group that is at the basis of the 600 cell and its dual, the 120 cell. As a
by-product of this work we obtain several Clifford algebraic results, such as a
characterization of positive elements in a Clifford algebra Cl(n+1) as
generalized Lorentz boosts, and their action as Moebius transformation on
n-sphere, and a decomposition of any element of Spin^+(1,n+1) into a boost and
a rotation, including the explicit formula for the pullback of the O(n+1)
invariant Riemannian metric with respect to the associated Mobius
transformation.Comment: Latex. 49 pages. 9 figures. Corrected two misprints in Sec. 3. R(2,C)
at the beginning has been replaced by C(V,Q), and `isomorphism' just before
Theorem 1 has been replaced by `homomorphism | Quantum fractals on n-spheres. Clifford Algebra approach | quantum fractals on n-spheres. clifford algebra approach | clifford formalism extend jumps eeqt convex stemming convex hulls projective theory. jumps spheres jumps configurations commuting detectors. detectors jumps geometrically conformal mobius transformations realize iterated fractal attractors spheres. extend formalism illustration fractals circle sphere octahedron sphere hypercube tesseract attractor approximated powers markov operator. appendices radon nikodym transformations hamilton icossian calculus quaternionic realization icosahedral cell. clifford algebraic clifford lorentz boosts moebius sphere decomposition boost pullback riemannian mobius latex. pages. figures. corrected misprints sec. beginning replaced isomorphism replaced homomorphism | non_dup | [] |
29552572 | 10.1007/s00006-007-0036-9 | The Dirichlet product of functions on a semi-Riemann domain and generalized
Euler vector fields, which include the radial, $\bar \partial$-Euler, and the
$\bar \partial$-Neumann vector fields, are introduced. The integral means and
the harmonic residues of functions on a Riemann domain are studied. The notion
of semi-harmonicity of functions on a complex space is introduced. It is shown
that, on a Riemann domain, the semi-harmonicity of a locally forwardly
$L^2$-function is characterized by local mean-value properties as well as by
weak-harmonicity. In particular, the Weyl's Lemma is extended to a Riemann
domain.Comment: This paper is a corrected version of "Semi-Harmonicity, Integral
Means and Euler Type Vector Fields, Adv. Appl. Clifford Alg. 17 (2007),
555-573". This publication is available at Springer via http://dx.doi.org/
DOI 10.1007/s00006-007-0036- | Semi-harmonicity, Integral Means and Euler Type Vector Fields | semi-harmonicity, integral means and euler type vector fields | dirichlet riemann euler euler neumann introduced. harmonic riemann studied. notion harmonicity introduced. riemann harmonicity locally forwardly harmonicity. weyl riemann corrected harmonicity euler adv. appl. clifford alg. publication springer | non_dup | [] |