Results 31 to 40 of about 638,232 (313)
High energy bremsstrahlung at the FCC-ee, FCC-eh and LHeC
European Physical Journal C: Particles and Fields, 2023 Bremsstrahlung spectra will be strongly distorted due to small lateral beam sizes at future colliders. That in turn will have large consequences for the electron and positron beam lifetimes as well as for the luminosity measurements in the case of ...Krzysztof Piotrzkowski, Mariusz Przybycien +1 moredoaj +1 more sourceFlavor-changing decay h → τ μ at super hadron colliders
Journal of High Energy Physics, 2020 We study the flavor-changing decay h → τ μ with τ = τ − +τ + and μ = μ − +μ + of a Higgs boson at future hadron colliders, namely: a) High Luminosity Large Hadron Collider, b) High Energy Large Hadron Collider and c) Future hadron-hadron Circular ...M.A. Arroyo-Ureña, T.A. Valencia-Pérez, R. Gaitán, J.H. Montes de Oca Y, A. Fernández-Téllez +4 moredoaj +1 more sourceSearching 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 sourceEESSI: A cross‐platform ready‐to‐use optimised scientific software stack
Software: Practice and Experience, Volume 53, Issue 1, Page 176-210, January 2023., 2023 Abstract
Getting scientific software installed correctly and ensuring it performs well has been a ubiquitous problem for several decades now, which is compounded currently by the changing landscape of computational science with the (re‐)emergence of different microprocessor families, and the expansion to additional scientific domains like artificial ...Bob Dröge, Victor Holanda Rusu, Kenneth Hoste, Caspar van Leeuwen, Alan O'Cais, Thomas Röblitz +5 morewiley +1 more sourceExperiment regarding magnetic fields with gravity
IET Quantum Communication, Volume 3, Issue 4, Page 218-228, December 2022., 2022 Abstract
This experiment was designed to test the string theory as a physical reality. The ground‐based device placed the N poles of the magnets upwards, north, south, east, and west. Coil Ass'Y was placed between 2 N poles with bearing covers on the top and bottom.Jong Hoon Leewiley +1 more sourceUnravelling the JPMorgan spoofing case using particle physics visualization methods
European Financial Management, Volume 29, Issue 1, Page 288-326, January 2023., 2023 Abstract
On 29 September 2020, JPMorgan was ordered to pay a settlement of $920.2 million for spoofing the metals and Treasury futures markets from 2008 to 2016. We examine these cases using a visualization method developed in particle physics (CERN) and the messages that the exchange receives about market activity rather than time‐based snapshots ...Philippe Debie, Cornelis Gardebroek, Stephan Hageboeck, Paul van Leeuwen, Lorenzo Moneta, Axel Naumann, Joost M. E. Pennings, Andres A. Trujillo‐Barrera, Marjolein E. Verhulst +8 morewiley +1 more sourceMetallographic analysis of 11 T dipole coils for High Luminosity-Large Hadron Collider (HL-LHC)
, 2020 For next-generation accelerator magnets for fields beyond those achievable using Nb–Ti, Nb3Sn is the most viable superconductor. The high luminosity upgrade for the Large Hadron Collider (HL-LHC) marks an important milestone as it will be the first ...S. Balachandran, Jonathan Cooper, Orion B Van Oss, P. Lee, L. Bottura, A. Devred, F. Savary, C. Scheuerlein, Felix Wolf +8 moresemanticscholar +1 more sourceGetting a grip: On causation, agency, and the meaning of “manipulation”
Theoria, Volume 88, Issue 6, Page 1228-1247, December 2022., 2022 Abstract
In the philosophy of causation, manipulationist literature is broadly divided into agency and interventionist accounts. The division between these accounts is partially due to a dispute regarding the meaning of “manipulation”, which specifically questions, “Must one analyse manipulation by appealing to human agency?” This paper attempts to ...Erik van Akenwiley +1 more sourceThe large hadron collider [PDF]
Progress in Particle and Nuclear Physics, 2012 Abstract The Large Hadron Collider (LHC) is the world’s largest and most energetic particle collider. It took many years to plan and build this large complex machine which promises exciting, new physics results for many years to come. We describe and review the machine design and parameters, with emphasis on subjects like luminosity and beam ...Helmut Burkhardt, O. Brüning, S. Myersopenaire +2 more sources
