Results 111 to 120 of about 638,232 (313)

Anscombe on the shallowness of consequentialism

European Journal of Philosophy, EarlyView.
Abstract This paper is divided into two parts. In the first I outline and defend Elizabeth Anscombe's claim that consequentialism is a shallow philosophy by considering how two contemporary consequentialists reach opposing but equally outlandish moral conclusions on a matter as fundamental as whether it is good or bad that the human race continues.
Craig Taylor
wiley   +1 more source

Chromatic coupling correction in the Large Hadron Collider

Physical Review Special Topics. Accelerators and Beams, 2013
In this article we present the measurement and correction of the chromatic coupling in the LHC. The transverse coupling is calculated from turn-by-turn data, exciting the beam with an ac dipole.
T. H. B. Persson, Y. Inntjore Levinsen, R. Tomás, E. H. Maclean   +3 more
doaj   +1 more source

Charmonium production in ultra-peripheral heavy ion collisions with two-photon processes

Nuclear Physics B, 2017
We calculate the production of large-pT charmonium and narrow resonance state (exotic charmonium) in proton–proton, proton–nucleus, and nucleus–nucleus collisions with the semi-coherent two-photon interactions at Relativistic Heavy Ion Collider (RHIC ...
Gong-Ming Yu, Yue-Chao Yu, Yun-De Li, Jian-Song Wang   +3 more
doaj   +1 more source

Ultimate Colliders [PDF]

arXiv, 2023
Our understanding of the Universe critically depends on the fundamental knowledge of particles and fields, which represents a central endeavor of modern high-energy physics. Energy frontier particle colliders - arguably, among the largest, most complex and advanced scientific instruments of modern times - for many decades have been at the forefront of ...
arxiv  

Constraints on the chiral magnetic effect using charge-dependent azimuthal correlations in pPb and PbPb collisions at the CERN Large Hadron Collider

, 2018
Charge-dependent azimuthal correlations of same- and opposite-sign pairs with respect to the second- and third-order event planes have been measured in pPb collisions at sNN=8.16TeV and PbPb collisions at 5.02 TeV with the CMS experiment at the LHC.
A. Sirunyan, R. Erbacher, W. Carvalho, M. Górski, D. Kotlinski, B. Ujvari, S. Muthumuni, R. Lander, N. Smith, Young-Il Choi, R. Hadjiiska, A. Lath, W. Johns, L. Uplegger, P. Hove, A. Iorio, U. Heintz, A. Thea, A. Hart, S. Sagir, J. Komaragiri, J. Chu, O. Driga, C. Peña, J. Molnár, S. Mitra, T. Dreyer, D. Nowatschin, Shamik Ghosh, M. Rodozov, M. Tytgat, D. Gyun, R. Schöfbeck, L. Pape, J. Hirschauer, B. Bilki, S. Toda, F. Yumiceva, V. Giakoumopoulou, R. Goldouzian, R. K. Dewanjee, C. Rovelli, D. Fasanella, W. Shi, R. Hirosky, P. Avery, A. Meyer, H. Reithler, L. Pant, D. Tlisov, A. Baty, T. Lindén, Z. Lesko, G. Hanson, G. Selvaggi, F. Colombo, Jaehoon Lim, C. Roskas, B. Bhawandeep, Y. Lai, W. Zeuner, T. Camporesi, R. G. Cassagnac, G. Daskalakis, K. Lo, E. Migliore, I. Hos, G. Ortona, E. Asilar, M. Junior, N. Cavallo, A. Magnan, C. Mcginn, C. Hwang, A. Adair, Y. Assran, A. Holzner, Kai-Feng Chen, M. Nguyen, D. Stickland, G. Apollinari, M. Felcini, D. Lelas, X. Niu, M. Olszewski, S. Norberg, O. Zenaiev, J. Rodriguez, P. Lujan, M. Mulders, F. Palla, S. Hasegawa, D. Curry, S. Bansal, R. Walsh, C. Palmer, K. Hahn, Tao Huang, P. Traczyk, W. Bertl, P. Thapa, J. Heilman, G. Stephans, O. Karacheban, Alicia Calderon, T. Peiffer, P. Netrakanti, T. Kress, G. Karapostoli, F. Ptochos, N. Beni, A. Zanetti, M. Baarmand, V. Calvelli, A. Petrilli, B. Joshi, D. Zhu, A. Kornmayer, C. Richardson, M. Cepeda, M. Thiel, C. Caillol, J. Chou, P. Petkov, N. Demaria, D. Piccolo, M. Guchait, P. Barbaro, N. Akchurin, O. Behnke, R. Betts, V. Innocente, Hyunchul Kim, A. Rácz, P. Baillon, V. Savrin, K. Kothekar, M. Masciovecchio, A. Dishaw, R. Conway, M. Northup, K. Tatar, A. Perloff, D. Anderson, A. Safonov, B. Mahakud, V. Khristenko, D. Krücker, S. Tkaczyk, A. Campbell, A. Martelli, D. Majumder, I. Caballero, I. Kucher, B. Ille, S. Banerjee, S. Buontempo, S. Taroni, G. Kasieczka, E. Paradas, A. Massironi, T. Lapsien, D. Lange, R. Mueller, C. Kleinwort, Jingyu Zhang, R. Fischer, K. Mondal, I. Shvetsov, S. Lezki, M. Heindl, P. Wittich, G. Abbiendi, H. Qiu, M. Paulini, K. H. Anampa, A. Cakir, P. Lariccia, S. Piperov, J. Hernández, Huaqiao Zhang, Y. Iiyama, V. Petrov, E. Gurpinar, M. Galanti, A. S. Hernández, G. Alves, I. Antropov, M. Turner, A. Nikitenko, N. Deelen, K. Burkett, S. Cooper, R. Demina, Arun Kumar, W. Luo, J. Dittmann, Chunjie Wang, T. Arndt, E. Bouvier, D. Krofcheck, F. Cenna, Z. A. Ibrahim, M. Zientek, T. Peltola, M. Hohlmann, H. Heath, S. Ahuja, M. Hamer, U. Hussain, P. Silva, J. Malcles, E. Butz, P. Kyberd, B. Mangano, R. Loveless, A. Dermenev, D. Horvath, A. Delgado, A. Tiko, T. Orimoto, D. R. Abad, A. Garabedian, A. Gritsan, M. Carver, W. Lohmann, R. A. Manzoni, F. Fiori, B. Radburn-Smith, Yi Chen, A. Panagiotou, L. Gutay, I. Smirnov, F. Geurts, C. Florez, P. Behera, M. Lipinski, C. Harrington, C. Caputo, F. Thyssen, M. Waqas, E. Wolfe, G. Mantovani, P. Symonds, E. E. Kangal, A. P. Yzquierdo, B. Francois, K. Kaadze, R. Campanini, P. David, F. Navarria, M. Schröder, F. Primavera, A. Roy, M. Ali, K. Padeken, C. Civinini, A. Kamenev, M. Marionneau, M. Hoffmann, R. Syarif, M. Sharan, I. Papadopoulos, M. Schmitt, U. Yang, P. R. Teles, P. Paolucci, D. Cerci, A. Mahrous, C. Schnaible, L. Moroni, B. Klima, M. Csanád, E. Auffray, K. Nawrocki, J. Conway, Zhangqier Wang, P. M. R. Arbol, H. Oğul, O. Gutsche, A. Fagot, B. Asavapibhop, I. Vardanyan, A. Güth, Q. Ingram, T. Eichhorn, S. Lisniak, L. Beck, G. Cerminara, S. Lacaprara, B. Michlin, M. Sani, A. Zghiche, D. Abbaneo, P. Sphicas, Willis Lin, N. Sur, S. Chatterjee, S. Maselli, J. Varela, J. Siado, M. Canelli, C. Hensel, S. Shalhout, M. Kirakosyan, C. Tully, A. Santocchia, J. Bradmiller-Feld, Yanchu Wang, G. Masetti, D. Son, T. Pree, R. Patel, N. Neumeister, H. Mermerkaya, C. Bernet, C. Shepherd-Themistocleous, S. My, D. Moon, E. Torassa, E. Olaiya, I. Vai, D. Rank, Y. Sirois, Qiao Xu, A. Dasgupta, V. Matveev, J. Castle, S. Cerci, W. Erdmann, G. Yu, V. Ciulli, M. Pelliccioni, F. Cavallari, G. Codispoti, L. H. Guativa, Á. Hunyadi, E. Gülmez, P. Chang, P. Mandrik, K. Kovitanggoon, J. Ellison, L. Benussi, K. Mazumdar, C. Snyder, N. Wickramage, A. Ershov, A. Moeller, A. Vanhoefer, V. Mossolov, P. Ronchese, J. Gomez, S. Baur, B. Maier, P. Checchia, J. Lawhorn, M. Wang, I. Golutvin, C. Asawatangtrakuldee, N. Zaganidis, T. Jarvinen, A. Meneguzzo, Y. Jo, P. Saxena, E. Tiras, T. Rodrigo, J. Brandstetter, U. Joshi, T. Aziz, F. Meijers, M. Dordevic, B. Mesić, O. G. Lopez, L. Giannini, M. Diemoz, B. Choudhary, B. Hashemi, V. Bhatnagar, A. Ahmad, G. Benelli, G. Anagnostou, N. Terentyev, T. Bergauer, S. Bitioukov, S. Malik, M. Klute, Xuyang Gao, A. Belyaev, A. Marini, G. Mohanty, W. Adam, P. D. Luckey, J. Flix, S. Erdweg, M. Naseri, V. Palladino, S. Troshin, G. Sguazzoni, C. Erice, M. Komm, M. Margoni, M. Gruttola, T. H. Doan, H. Jung, O. Toldaiev, W. A. Khan, D. Fehling, D. Bloch, Z. Gecse, T. Rohe, R. Bi, A. Hervé, D. Kovalskyi, Cecilia Duran-Osuna, C. Charlot, D. Puigh, G. Bencze, L. Antonelli, S. Kyriacou, D. Trocino, H. Newman, V. Blinov, C. Barth, A. Hortiangtham, A. Kaur, D. Poyraz, M. Arenton, M. Krohn, L. Teodorescu, E. Manoni, G. Fedi, S. Zenz, V. Daponte, M. Monteno, G. G. Ceballos, R. Eusebi, C. Brew, A. Soha, T. Ruggles, G. Zumerle, D. Winterbottom, F. Scheuch, C. Dorfer, M. Preuten, W. Ji, R. Montalvo, C. Vernieri, A. Askew, V. Kachanov, C. Campagnari, David Yu, C. Lange, A. Vartak, D. Gelé, L. Uvarov, R. Suarez, E. Longo, L. Cadamuro, L. Thomas, T. Pook, F. Simonetto, T. Mengke, F. R. Hosseinabadi, G. Eckerlin, J. Kamin, I. Ojalvo, Y. Oh, J. D. Campderros, G. Martinez, S. Tosi, M. Kasemann, D. Rabady, D. Burns, R. Chawla, M. Maggi, R. V. Cortabitarte, Thong Q. Nguyen, Y. Hsiung, S. Bhowmik, C. Seitz, T. Esch, K. Ulmer, P. Thomassen, Q. Hassan, P. Bloch, P. Harris, K. Shi, E. Eren, F. Chlebana, N. Pastika, M. Besançon, J. Hollar, S. Wimpenny, Songkyo Lee, C. Contreras-Campana, B. Gomber, K. Johnson, G. Angioni, M. Malberti, L. Yuan   +499 more
semanticscholar   +1 more source

Exotic Physics Searches at CMS

, 2012
We summarize the results of several searches for evidence of new physics phenomena using proton-proton collisions at 7 TeV delivered by the Large Hadron Collider at CERN and recorded by the CMS detector in 2011.Comment: Presented at the 2011 Hadron ...
Dahmes, Bryan
core   +2 more sources

Charm and beauty of the Large Hadron Collider [PDF]

, 2005
With the acceleration of lead nuclei in the LHC, heavy-ion physics will enter a new energy domain. One of the main novelties introduced by the 30-fold energy-jump from RHIC to the LHC is the abundant heavy-quark production.
, , Accardi A, Andrea Dainese, Armesto N Dainese A Salgado C A Wiedemann U A, ATLAS Collaboration, Bedjidian M, Carrer N, Carrer N Dainese A, Dainese A, Dainese A, Klay J, Molnar D, Petrushanko S, Vogt R   +14 more
core   +2 more sources

From Boundary Objects to Boundary Infrastructure: A Process Study of Collaboration between Big Science and Big Business

Journal of Management Studies, EarlyView.
Abstract The development of a novel boundary infrastructure for large‐scale interorganizational collaboration presents a challenge that is ill‐understood: how can individual boundary objects, which do not suffice for large‐scale collaboration and might even engender conflict, be developed into a coherent boundary infrastructure that facilitates the ...
Jochem T. Hummel, Hans Berends, Philipp Tuertscher   +2 more
wiley   +1 more source

Light-by-light scattering in ultraperipheral Pb-Pb collisions at energies available at the CERN Large Hadron Collider [PDF]

, 2016
We calculate cross sections for diphoton production in (semi)exclusive $PbPb$ collisions, relevant for the LHC. The calculation is based on equivalent photon approximation in the impact parameter space.
M. Kłusek-Gawenda, P. Lebiedowicz, A. Szczurek   +2 more
semanticscholar   +1 more source

Small-x Physics in eA at the LHeC: Understanding the Initial State of URHIC

EPJ Web of Conferences, 2014
I discuss the project of an electron-proton/ion collider at CERN using the LHC beams, the Large Hadron Electron Collider. After a brief introduction, I summarise the possibilities for electron-nucleus collisions. I also indicate the status of the project
Armesto Néstor
doaj   +1 more source