Results 11 to 20 of about 638,232 (313)
The Large Hadron-Electron Collider at the HL-LHC [PDF]
Journal of Physics G: Nuclear and Particle Physics, 2020 The Large Hadron electron Collider (LHeC) is designed to move the field of deep inelastic scattering (DIS) to the energy and intensity frontier of particle physics.P. Agostini, H. Aksakal, H. Alan, S. Alekhin, P. Allport, N. Andari, K. André, D. Angal-Kalinin, S. Antusch, L. Bella, L. Apolinário, R. Apsimon, A. Apyan, G. Arduini, V. Ari, A. Armbruster, N. Armesto, B. Auchmann, K. Aulenbacher, G. Azuelos, S. Backovic, I. Bailey, S. Bailey, F. Balli, S. Behera, O. Behnke, I. Ben-Zvi, M. Benedikt, J. Bernauer, S. Bertolucci, S. Biswal, J. Blumlein, A. Bogacz, M. Bonvini, M. Boonekamp, F. Bordry, G. Boroun, L. Bottura, S. Bousson, A. Bouzas, C. Bracco, J. Bracinik, D. Britzger, S. Brodsky, C. Bruni, O. Bruning, H. Burkhardt, O. Cakir, R. Calaga, A. Caldwell, A. Caliskan, S. Camarda, N. Catalan-Lasheras, K. Cassou, J. Cepila, V. Cetinkaya, V. Chetvertkova, B. Cole, B. Coleppa, A. Cooper-Sarkar, É. Cormier, A. Cornell, R. Corsini, E. Cruz-Alaniz, J. Currie, D. Curtin, M. D’Onofrio, J. Dainton, E. Daly, A. Das, S. Das, L. Dassa, J. Blas, L. D. Rose, H. Denizli, K. Deshpande, D. Douglas, L. Duarte, K. Dupraz, S. Dutta, A. Efremov, R. Eichhorn, K. Eskola, E. Ferreiro, O. Fischer, O. Flores-S'anchez, S. Forte, A. Gaddi, J. Gao, T. Gehrmann, A. Ridder, F. Gerigk, A. Gilbert, F. Giuli, A. Glazov, N. Glover, R. Godbole, B. Goddard, V. Gonccalves, G. González-Sprinberg, A. Goyal, J. Grames, Eduardo Granados, A. Grassellino, Y. Gunaydin, Y. Guo, V. Guzey, C. Gwenlan, A. Hammad, C. Han, L. Harland–Lang, F. Haug, F. Hautmann, D. Hayden, J. Hessler, I. Helenius, J. Henry, J. Hernández-Sánchez, H. Hesari, T. Hobbs, N. Hod, G. Hoffstaetter, B. Holzer, C. G. Honorato, B. Hounsell, N. Hu, F. Hug, A. Huss, A. Hutton, R. Islam, S. Iwamoto, S. Jana, M. Jansová, E. Jensen, T. Jones, J. Jowett, W. Kaabi, M. Kado, D. A. Kalinin, H. Karadeni̇z, S. Kawaguchi, U. Kaya, R. A. Khalek, Hamzeh Khanpour, A. Kilic, M. Klein, U. Klein, S. Kluth, M. Koksal, F. Kocak, M. Korostelev, P. Kostka, M. Krelina, J. Kretzschmar, S. Kuday, G. Kulipanov, M. Kumar, M. Kuze, T. Lappi, F. Larios, A. Latina, P. Laycock, G. Lei, E. Levitchev, S. Levonian, A. Levy, R. Li, X. Li, H. Liang, V. Litvinenko, M. Liu, T. Liu, W. Liu, Y. Liu, S. Liuti, E. Lobodzinska, D. Longuevergne, X. Luo, W. Ma, M. Machado, S. Mandal, H. Mantysaari, F. Marhauser, C. Marquet, A. Martens, R. Martín, S. Marzani, J. Mcfayden, P. Mcintosh, B. Mellado, F. Méot, A. Milanese, J. G. Milhano, B. Militsyn, M. Mitra, S. Moch, M. Najafabadi, S. Mondal, S. Moretti, T. Morgan, A. Morreale, P. Nadolsky, F. Navarra, Z. Nergiz, P. Newman, J. Niehues, E. Nissen, M. Nowakowski, N. Okada, G. Olivier, F. Olness, G. Olry, J. Osborne, A. Ozansoy, R. Pan, B. Parker, M. Patra, H. Paukkunen, Y. Peinaud, D. Pellegrini, G. Pérez-Segurana, D. Perini, L. Perrot, N. Pietralla, E. Piliçer, B. Pire, J. Pires, R. Plačakytė, M. Poelker, R. Polifka, A. Pollini, P. Poulose, G. Pownall, Y. Pupkov, F. Queiroz, K. Rabbertz, V. Radescu, R. Rahaman, S. Rai, N. Raičević, P. Ratoff, A. Rashed, D. Raut, S. Raychaudhuri, J. Repond, A. Rezaeian, R. Rimmer, L. Rinolfi, J. Rojo, A. Rosado, X. Ruan, S. Russenschuck, M. Sahin, C. Salgado, O. Sampayo, K. Satendra, N. Satyanarayan, B. Schenke, K. Schirm, H. Schopper, M. Schott, D. Schulte, C. Schwanenberger, T. Sekine, A. Senol, A. Seryi, S. Setiniyaz, L. Shang, X. Shen, N. Shipman, N. Sinha, W. Słomiński, S. Smith, C. Solans, M. Song, H. Spiesberger, J. Stanyard, A. Starostenko, A. Staśto, A. Stocchi, M. Strikman, M. Stuart, S. Sultansoy, H. Sun, M. Sutton, L. Szymanowski, I. Tapan, D. Tapia-Takaki, M. Tanaka, Y. Tang, A. T. Taşçı, A. T. Ten-Kate, P. Thonet, R. Tomás-Garcia, D. Tommasini, D. Trbojevic, M. Trott, I. Tsurin, A. Tudora, I. T. Cakir, K. Tywoniuk, C. Vallerand, A. Valloni, D. Verney, E. Vilella, D. Walker, S. Wallon, B. Wang, K. Wang, X. Wang, Z. Wang, H. Wei, C. Welsch, G. Willering, P. Williams, D. Wollmann, C. Xiaohao, T. Xu, C. Yaguna, Y. Yamaguchi, Y. Yamazaki, H. Yang, A. Yilmaz, P. Yock, C. Yue, S. Zadeh, O. Zenaiev, C. Zhang, J. Zhang, R. Zhang, Z. Zhang, G. Zhu, S. Zhu, F. Zimmermann, F. Zomer, J. Zurita, P. Zurita +336 moresemanticscholar +18 more sourcesThe Large Hadron Electron Collider [PDF]
Modern Physics Letters A, 2013 An overview is given on key physics, detector and accelerator aspects of the
LHeC, including its further development, with emphasis to its role as the
cleanest microscope of parton dynamics and a precision Higgs facility.Comment: 13 pages, 4 ...Bruening, Oliver, Klein, Maxcore +3 more sourcesSupersymmetric Monojets at the Large Hadron Collider [PDF]
Journal of High Energy Physics, 2011 Supersymmetric monojets may be produced at the Large Hadron Collider by the
process qg -> squark neutralino_1 -> q neutralino_1 neutralino_1, leading to a
jet recoiling against missing transverse momentum.A Brandenburg, A Freitas, A Freitas, A Rujula De, A Sherstnev, AD Martin, AH Chamseddine, AJ Barr, AJ Barr, AR Allan, BC Allanach, Benjamin C. Allanach, D Giordano, E Byckling, E Reya, E Reya, E Reya, F Delduc, G Arnison, G Bozzi, G Bélanger, G Weiglein, GF Giudice, GF Giudice, GJ Gounaris, GL Kane, H Baer, H Baer, H Baer, H Baer, HE Haber, HK Dreiner, Howard E. Haber, J Goodman, J Goodman, J Pumplin, JA Aguilar-Saavedra, JF Gunion, JL Feng, JR Ellis, JR Ellis, JR Ellis, JR Ellis, JR Ellis, K Huitu, K Nakamura, L Covi, L Lönnblad, L Randall, L Vacavant, L Álvarez-Gaumé, LE Ibáñez, LJ Hall, M Bahr, M Bahr, M Beltrán, M Cacciari, M Carena, M Dobbs, M Gluck, M Gluck, M Gluck, M Gluck, M Klasen, N Ohta, ND Tracas, P Bechtle, P Canal, P Nyborg, P Nyborg, PZ Skands, R Barbieri, R Brun, R Hauser, RM Barnett, RM Barnett, S Bornhauser, S Dawson, S Raby, SD Ellis, Sebastian Grab, SK Soni, SP Martin, T Aaltonen, T Gherghetta, T Hebbeker, T Moroi, T Plehn, TG Rizzo, VD Barger, VD Barger, VD Barger, VD Barger, VM Abazov, Y Bai +94 morecore +5 more sourcesHiggs Physics at the Large Hadron Collider [PDF]
Pramana, 2011 In this talk I will begin by summarising the importance of the Higgs physics
studies at the LHC. I will then give a short description of the pre-LHC
constraints on the Higgs mass and the theoretical predictions for the LHC along
with a discussion of the ...A Rujula De, DJ Miller, J Baglio, J Baglio, M Duhrssen, R Barate, R Lafaye, RM Godbole, ROHINI M GODBOLE, SY Choi, T Hambye, T Plehn, Y Gao +12 morecore +5 more sourcesMinimal Matter at the Large Hadron Collider [PDF]
Nuclear Physics B, 2009 We classify all possible new U(1) x SU(2) x SU(3) multiplets that can couple
to pairs of SM particles. Assuming that production of such new particles is
dominated by their gauge interactions we study their signals at LHC, finding
the following five main ...Del Nobile, Eugenio, Franceschini, Roberto, Pappadopulo, Duccio, Strumia, Alessandro +3 morecore +5 more sourcesHiggs Physics at the Large Hadron Collider
, 2001 A major goal of the future Large Hadron Collider will be the Higgs boson
search. In this paper the discovery In this paper the discovery potential is
described as a function of the Higgs mass showing that a Standard Model Higgs
boson can be discovered ...D. Costanzoopenalex +5 more sourcesMonotop phenomenology at the Large Hadron Collider [PDF]
Physical Review D, 2013 We investigate new physics scenarios where systems comprised of a single top
quark accompanied by missing transverse energy, dubbed monotops, can be
produced at the LHC.Agram, Jean-Laurent, Andrea, Jeremy, Buttignol, Michael, Conte, Eric, Fuks, Benjamin +4 morecore +3 more sourcesLarge Hadron Collider (LHC). [PDF]
Sci Prog, 2013 Introduction The Large Hadron Collider (1) (LHC) is the largest and most powerful particle accelerator in the world. It was built by the European Organisation for Nuclear Research (CERN) (2) during the period 1998-2008, for the purpose of providing an experimental verification of different theories within particle physics and high-energy physics.Rhodes CJ.europepmc +3 more sources
