Results 11 to 20 of about 338,624 (229)
Jets in Hadron-Hadron Collisions [PDF]
Progress in Particle and Nuclear Physics, 2007 In this article, we review some of the complexities of jet algorithms and of
the resultant comparisons of data to theory. We review the extensive experience
with jet measurements at the Tevatron, the extrapolation of this acquired
wisdom to the LHC and ...Abachi, Abazov, Abazov, Abbiendi, Abbott, Abe, Abe, Abe, Abe, Abe, Abe, Abulencia, Abulencia, Abulencia, Abulencia, Acosta, Acosta, Acosta, Acosta, Adloff, Affolder, Bhatti, Butterworth, Butterworth, Cacciari, Campbell, Campbell, Catani, Catani, Collins, Corcella, Dokshitzer, Ellis, Ellis, Ellis, Ellis, Ellis, Frixione, Giele, Gleisberg, Grindhammer, Huth, J. Huston, K. Hatakeyama, Kluge, Lai, Lami, M. Tönnesmann, Mangano, Mangano, Martin, Mrenna, Nagy, P. Loch, Pumplin, S.D. Ellis, Salam, Seymour, Seymour, Sjostrand, Stump, Wobisch +61 morecore +5 more sourcesDiffraction in hadron-hadron interactions [PDF]
Nuclear Physics B - Proceedings Supplements, 2000 Results on soft and hard diffraction in $pp$ and $\bar pp$ collisions are
reviewed with emphasis on factorization and scaling properties of differential
cross sections.Abachi, Abe, Abe, Abe, Abe, Abe, Abe, Abe, Affolder, Affolder, Affolder, Bonino, Brandt, Collins, Covolan, Donnachie, Froissart, Good, Gotsman, Gotsman, Gotsman, Goulianos, Goulianos, Goulianos, Goulianos, Goulianos, Ingelman, K. Goulianos, Kaidalov, Martin +29 morecore +5 more sourcesBaryon and antibaryon production in hadron-hadron and hadron-nucleus
interactions [PDF]
Nuclear Physics A, 2002 Cascade baryon and anti-baryon yields have been measured in p+p and p+A
collisions. After extraction of the projectile component in p+A interactions
close similarities with A+A collisions concerning the nuclear enhancement
factors are observed.Barton, Robert, Blyth, Charles, Jones, Peter, Kreps, M, Nelson, John, Squier, Gordon +5 morecore +3 more sourcesKinetic description of hadron-hadron collisions [PDF]
International Journal of Modern Physics E, 2007 A transport model based on the mean free path approach to describe pp
collisions is proposed. We assume that hadrons can be treated as bags of
partons similarly to the MIT bag model.A. BONASERA, Alner G. J., Bonasera A., Bonasera A., Csernai L. P., Dorso C., S. TERRANOVA, Sa B.-H., Turcotte D. L., ZHI GUANG TAN +9 morecore +4 more sourcesHadron Multiplicities [PDF]
Physics Reports, 2000 We review results on hadron multiplicities in high energy particle
collisions. Both theory and experiment are discussed. The general procedures
used to describe particle multiplicity in Quantum Chromodynamics (QCD) are
summarized.Amati, Andersson, Andersson, Andersson, Andreev, Apanasenko, Azimov, Azimov, Azimov, Bardeen, Basile, Bassetto, Bassetto, Bethke, Bialas, Bialas, Bianchi, Biyajima, Biyajima, Blankenbecler, Botet, Brax, Brodsky, Brooks, Capella, Capella, Capella, Carius, Catani, Catani, Catani, Chekanov, Chekanov, Chiu, Chliapnikov, Cuypers, Cuypers, DeWolf, Dokshitzer, Dokshitzer, Dokshitzer, Dokshitzer, Dokshitzer, Dokshitzer, Dokshitzer, Dokshitzer, Dokshitzer, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Dremin, Eden, Edén, Edén, Einhorn, Ellis, Ellis, Ellis, Fermi, Gaffney, Gary, Gary, Giovannini, Giovannini, Giovannini, Giovannini, Goulianos, Hegyi, I.M. Dremin, J.W. Gary, Kaidalov, Kaufmann, Khoze, Khoze, Khoze, Kisselev, Koba, Konishi, Konishi, Landau, Lee, Leonidov, Leonidov, Lupia, Lupia, Lönnblad, Malaza, Marchesini, Marciano, Meunier, Mueller, Ochs, Ochs, Olsson, Pachr, Petrov, Polikarpov, Pomeranchuk, Safonov, Sarkisyan, Schumm, Seymour, Shizuya, Sterman, Ugoccioni, Ugoccioni, Ugoccioni, Wang, Webber, Wehrl, Yang, Yndurain, Zakharov, Šimák, Šimák +136 morecore +6 more sourcesSearching for long-lived particles beyond the Standard Model at the Large Hadron Collider [PDF]
Journal of Physics G: Nuclear and Particle Physics, 2019 Particles beyond the Standard Model (SM) can generically have lifetimes that are long compared to SM particles at the weak scale. When produced at experiments such as the Large Hadron Collider (LHC) at CERN, these long-lived particles (LLPs) can decay ...J. Alimena, James Beacham, M. Borsato, Yangyang Cheng, X. C. Vidal, G. Cottin, A. Roeck, N. Desai, D. Curtin, J. Evans, S. Knapen, S. Kraml, A. Lessa, Zhen Liu, S. Mehlhase, M. Ramsey-Musolf, H. Russell, J. Shelton, B. Shuve, M. Verducci, J. Zurita, T. Adams, M. Adersberger, C. Alpigiani, A. Apresyan, R. Bainbridge, V. Batozskaya, H. Beauchesne, L. Benato, S. Berlendis, E. Bhal, F. Blekman, Christina Borovilou, J. Boyd, B. Brau, L. Bryngemark, O. Buchmueller, M. Buschmann, W. Buttinger, M. Campanelli, C. Cesarotti, Chunhui Chen, Hsin-Chia Cheng, S. Cheong, M. Citron, A. Coccaro, V. Coco, É. Conte, F. Cormier, L. Corpe, N. Craig, Yanou Cui, E. Dall’Occo, C. Dallapiccola, M. R. Darwish, A. Davoli, A. Cosa, A. Simone, L. D. Rose, F. Deppisch, B. Dey, M. Diamond, K. Dienes, S. Dildick, B. Dobrich, M. Drewes, M. Eich, M. Elsawy, A. E. D. Valle, G. Facini, M. Farina, Jonathan L. Feng, O. Fischer, H. Flaecher, P. Foldenauer, M. Freytsis, B. Fuks, I. Galon, Y. Gershtein, S. Giagu, A. Giammanco, V. Gligorov, T. Golling, S. Grancagnolo, G. Gustavino, A. Haas, K. Hahn, Jan Hajer, A. Hammad, Lukas Heinrich, J. Heisig, J. Helo, G. Hesketh, C. Hill, M. Hirsch, M. Hohlmann, W. Hulsbergen, J. Huth, P. Ilten, T. Jacques, B. Jayatilaka, G. Jeng, K. Johns, T. Kaji, G. Kasieczka, Y. Kats, M. Kazana, H. Keller, M. Khlopov, F. Kling, T. Kolberg, I. Kostiuk, E. Kuwertz, A. Kvam, G. Landsberg, G. Lanfranchi, I. Lara, A. Ledovskoy, Dylan Linthorne, Jia Liu, I. Longarini, S. Lowette, H. Lubatti, M. Lutz, Jingyu Luo, Judita Mamuvzi'c, M. Marinangeli, Alberto Mariotti, D. Marlow, M. McCullough, K. Mcdermott, P. Mermod, D. Milstead, V. Mitsou, J. Berlingen, F. Moortgat, A. Morandini, A. P. Morris, D. Morse, S. Mrenna, B. Nachman, Miha Nemevvsek, F. Nesti, Christian Ohm, S. Pascoli, K. Pedro, C. Peña, K. J. P. Rodriguez, J. Piedra, J. Pinfold, A. Policicchio, Goran Popara, J. Prisciandaro, M. Proffitt, G. Rauco, F. Redi, M. Reece, A. Hall, H. Sfar, S. Renner, A. Roepe, M. Ronzani, E. Salvioni, A. Santra, R. Sawada, J. Scholtz, P. Schuster, P. Schwaller, Cristiano Sebastiani, S. Sekmen, M. Selvaggi, W. Si, L. Soffi, D. Stolarski, D. Stuart, J. Stupak, K. Sung, W. Taylor, S. Templ, B. Thomas, Emma Torr'o-Pastor, D. Trocino, S. Trojanowski, M. Trovato, Yuhsin Tsai, C. Tully, Tam'as 'Almos V'ami, J. Vasquez, C. Sierra, K. Vellidis, B. Vermassen, M. Vit, D. Walker, Xiaoping Wang, G. Watts, S. Xie, M. Yexley, C. Young, Jiang-Hao Yu, P. Zalewski, Yongchao Zhang The Ohio State University, D. University, Ruprecht-Karls-Universitat Heidelberg, Cornell University, U. S. D. Compostela, National Taiwan Normal University, Cern, T. I. O. F. Physics, U. Toronto, U. Cincinnati, Institute for Advanced Study, Universit'e Grenoble-Alpes, CNRSIN2p3, Universidade Federal do Abc, U. Maryland, Ludwig-Maximilians-Universitat Munchen, U. Massachusetts, Amherst, M. University, U. I. Urbana-Champaign, Harvey Mudd College, U. California, Riverside, U. Tre, Infn, Karlsruhe Institute of Technology, Florida State University, U. Washington, I. College, N. C. F. N. Research, Warsaw, Poland, Ben-Gurion University, U. Hamburg, U. Arizona, U. Bristol, V. U. Brussel, National, Kapodistrian University of Athens, L. University, U. Michigan, U. London, Harvard University, I. S. University, Davis, S. N. Laboratory, S. University, Santa Barbara, I. Genova, Universit'e de StrasbourgCNRS-IN2P3, The University of British Columbia, Nikhef National Institute for Subatomic Physics, A. University, Sissa, U. Zurich, I. Trieste, U. Florence, U. Southampton, Central China Normal University, Texas A M University, Universit'e catholique de Louvain, The British University in Egypt, Beni Suef University, Austrian Academy of Sciences, Stony Brook University, Irvine, U. Heidelberg, T. University, U. Oregon, Sorbonne Universit'e et Cnrs, I. France, Rutgers, The State University of New Jersey, Rutgers University, S. Roma, Infn Roma, Sorbonne Universit'e, U. Geneve, Humboldt-Universitat, The University of Oklahoma, N. University, N. University, U. Basel, Universidad de La Serena, U. Valencia, F. I. Technology, U. Birmingham, F. N. Laboratory, W. University, R. University, National Research Nuclear University, Mephi, A. laboratory, Brown University, Laboratori Nazionali di Frascati, Instituto de F'isica Te'orica, U. Virginia, Carleton University, U. Chicago, Univ. Roma, La Sapienza, P. University, 'Ecole polytechnique f'ed'erale de Lausanne, Stockholms Universitet, U. Ghent, Northeastern University, L. B. N. Laboratory, J. S. Institute, U. dell'Aquila, K. R. I. O. Technology, Stockholm University, D. University, C. I. O. Technology., Ifca, U. Alberta, Rudjer Bovskovi'c Institute, Johannes Gutenberg University, T. U. Munich, T. U. O. Tokyo, Kyungpook National University, York University, Lafayette College, U. Sheffield, A. N. Laboratory, Wigner Research Centre for Physics, Universidad T'ecnica Federico Santa Mar'ia, Dartmouth College, L. University, Chinese Academy of Sciences, W. University, S. Louis, S. University, Institute for Nuclear Research of the National Academy of Sciences, Kyiv, Ukraine +334 moresemanticscholar +1 more sourceEntropy in hadron-hadron collisions [PDF]
Physical Review D, 2000 We analyse the entropy properties in the proton-proton 1800 GeV events from the PYTHIA/JETSET Monte Carlo generator following a recent proposal concerning the measurement of entropy in multiparticle systems. The dependence on the number of bins and on the size of the phase-space region is investigated.K. Fialkowski, R. Witopenaire +2 more sources
