Results 1 to 10 of about 50 (47)
The Large Hadron–Electron Collider at the HL-LHC [PDF]
Journal of Physics G: Nuclear and Particle Physics, 2021 Abstract 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. Exploiting energy-recovery technology, it collides a novel, intense electron beam with a proton or ion beam from the High-Luminosity Large Hadron Collider (HL-LHC ...Agostini, P., Aksakal, H., Apolinario, L., Goyal, A., Grames, J., Granados, E., Grassellino, A., Gunaydin, Y. O., Guo, Y. C., Guzey, V., Gwenlan, C., Hammad, A., Han, C. C., Apsimon, R., Harland-Lang, L., Haug, F., Hautmann, F., Hayden, D., Hessler, J., Helenius, I., Henry, J., Hernandez-Sanchez, J., Hesari, H., Hobbs, T. J., Apyan, A., Hod, N., Hoffstaetter, G. H., Holzer, B., Honorato, C. G., Hounsell, B., Hu, N., Hug, F., Huss, A., Hutton, A., Islam, R., Arduini, G., Iwamoto, S., Jana, S., Jansova, M., Jensen, E., Jones, T., Jowett, J. M., Kaabi, W., Kado, M., Kalinin, D. A., Karadeniz, H., Ari, V., Kawaguchi, S., Kaya, U., Khalek, R. A., Khanpour, H., Kilic, A., Klein, M., Klein, U., Kluth, S., Köksal, M., Kocak, F., Armbruster, A., Korostelev, M., Kostka, P., Krelina, M., Kretzschmar, J., Kuday, S., Kulipanov, G., Kumar, M., Kuze, M., Lappi, T., Larios, F., Armesto, N., Latina, A., Laycock, P., Lei, G., Levitchev, E., Levonian, Serguei V., Levy, A., Li, R., Li, X., Liang, H., Litvinenko, V., Auchmann, B., Liu, M., Liu, T., Liu, W., Liu, Y., Liuti, S., Lobodzinska, Ewelina, Longuevergne, D., Luo, X., Ma, W., Machado, M., Aulenbacher, K., Mandal, S., Mäntysaari, H., Marhauser, F., Marquet, C., Martens, A., Martin, R., Marzani, S., McFayden, J., Mcintosh, P., Mellado, B., Azuelos, G., Meot, F., Milanese, A., Milhano, J. G., Militsyn, B., Mitra, M., Moch, S., Mohammadi Najafabadi, M., Mondal, S., Moretti, S., Morgan, T., Alan, H., Backovic, S., Morreale, A., Nadolsky, P., Navarra, F., Nergiz, Z., Newman, P., Niehues, J., Nissen, E. A., Nowakowski, M., Okada, N., Olivier, G., Bailey, I., Olness, F., Olry, G., Osborne, J. A., Ozansoy, A., Pan, R., Parker, B., Patra, M., Paukkunen, H., Peinaud, Y., Pellegrini, D., Bailey, S., Perez-Segurana, G., Perini, D., Perrot, L., Pietralla, N., Pilicer, E., Pire, B., Pires, J., Placakyte, R., Poelker, M., Polifka, R., Balli, F., Polini, A., Poulose, P., Pownall, G., Pupkov, Y. A., Queiroz, F. S., Rabbertz, K., Radescu, V., Rahaman, R., Rai, S. K., Raicevic, N., Behera, S., Ratoff, P., Rashed, A., Raut, D., Raychaudhuri, S., Repond, J., Rezaeian, A. H., Rimmer, R., Rinolfi, L., Rojo, J., Rosado, A., Behnke, O., Ruan, X., Russenschuck, S., Sahin, M., Salgado, C. A., Sampayo, O. A., Satendra, K., Satyanarayan, N., Schenke, B., Schirm, K., Schopper, H., Ben-Zvi, I., Schott, M., Schulte, D., Schwanenberger, C., Sekine, T., Senol, A., Seryi, A., Setiniyaz, S., Shang, L., Shen, X., Shipman, N., Benedikt, M., Sinha, N., Slominski, W., Smith, S., Solans, C., Song, M., Spiesberger, H., Stanyard, J., Starostenko, A., Stasto, A., Tapan, I., Blümlein, Johannes, Wang, Z. S., Welsch, C., Williams, P. H., Yilmaz, A., Zenaiev, O., Zhang, R., Zhu, G., Zurita, J., Boroun, G. R., Britzger, D., Cakir, O., Cassou, K., Cornell, A. S., Corsini, R., Curtin, D., Das, A., Angal-Kalinin, D., Dassa, L., Delle Rose, L., Eskola, K. J., Forte, S., Gaddi, A., Gehrmann, T., Aperio Bella, L., Gehrmann-De Ridder, A., Gilbert, A., Giuli, F., Glover, N. +229 moreopenaire +17 more sourcesThe Large Hadron Collider [PDF]
New Journal of Physics, 2002 Abstract This chapter discusses the design principles of the LHC, which gives access to the TeV energy scale for the first time. To achieve this, a number of technological innovations have been necessary. Two counter-rotating proton beams are guided and focused by superconducting magnets with a two-in-one structure allowing the machine ...Lyndon Evans, Lyndon Evansopenaire +6 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. O. Brüning, Max Kleinopenaire +3 more sourcesThe 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 sourcesJet substructure at the Large Hadron Collider [PDF]
Reviews of Modern Physics, 2019 Jet substructure has emerged to play a central role at the Large Hadron Collider, where it has provided numerous innovative ways to search for new physics and to probe the standard model, particularly in extreme regions of phase space. This review focuses on the development and use of state-of-the-art jet substructure techniques by the ATLAS and CMS ...Kogler, Roman, Nachman, Benjamin, Schmidt, Alexander, Asquith, Lily, Winkels, Emma, Campanelli, Mario, Delitzsch, Chris, Harris, Philip, Hinzmann, Andreas, Kar, Deepak, McLean, Christine, Pilot, Justin, Takahashi, Yuta, Tran, Nhan, Vernieri, Caterina, Vos, Marcel +15 moreopenaire +5 more sourcesLepton-Quark Collisions at the Large Hadron Collider [PDF]
Physical Review Letters, 2020 7 pages, 4 figures, v2: extended version of the manuscript that has been accepted for publication by ...Buonocore, Luca, Haisch, Ulrich, Nason, Paolo, Tramontano, Francesco, Zanderighi, Giulia +4 moreopenaire +5 more sourcesComposite vectors at the Large Hadron Collider [PDF]
Journal of High Energy Physics, 2010 An unspecified strong dynamics may give rise to composite vectors sufficiently light that their interactions, among themselves or with the electroweak gauge bosons, be approximately described by an effective Lagrangian invariant under $SU(2)_L\times SU(2)_R/ SU(2)_{L+R}$.BARBIERI, Riccardo, Carcamo Hernandez, A. E, Corcella, Gennaro, Torre, Riccardo, TRINCHERINI, ENRICO +4 moreopenaire +5 more sourcesMinimal matter at the large hadron collider [PDF]
Nuclear Physics B, 2010 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 classes: i) lepto-quark 2l 2q signals; ii) di-lepton 4l signals; iii) di-quarks 4j signals, iv ...Eugenio Del Nobile, Duccio Pappadopulo, Alessandro Strumia, Alessandro Strumia, Roberto Franceschini +4 moreopenaire +4 more sourcesThe ATLAS Experiment at the CERN Large Hadron Collider [PDF]
Journal of Instrumentation, 2008 The ATLAS detector as installed in its experimental cavern at point 1 at CERN is described in this paper. A brief overview of the expected performance of the detector when the Large Hadron Collider begins operation is also presented.The ATLAS Collaboration, G. Aad, E. Abat, J. Abdallah, A. A. Abdelalim, A. Abdesselam, O. Abdinov, B. A. Abi, M. Abolins, H. Abramowicz, E. Acerbi, B. S. Acharya, R. Achenbach, M. Ackers, D. L. Adams, F. Adamyan, T. N. Addy, M. Aderholz, C. Adorisio, P. Adragna, M. Aharrouche, S. P. Ahlen, F. Ahles, A. Ahmad, H. Ahmed, G. Aielli, P. F. Åkesson, T. P. A. Åkesson, A. V. Akimov, S. M. Alam, J. Albert, S. Albrand, M. Aleksa, I. N. Aleksandrov, M. Aleppo, F. Alessandria, C. Alexa, G. Alexander, T. Alexopoulos, G. Alimonti, M. Aliyev, P. P. Allport, S. E. Allwood Spiers, A. Aloisio, J. Alonso, R. Alves, M. G. Alviggi, K. Amako, P. Amaral, S. P. Amaral, G. Ambrosini, G. Ambrosio, C. Amelung, V. V. Ammosov, A. Amorim, N. Amram, C. Anastopoulos, B. Anderson, K. J. Anderson, E. C. Anderssen, A. Andreazza, V. Andrei, L. Andricek, M. L. Andrieux, X. S. Anduaga, F. Anghinolfi, A. Antonaki, M. Antonelli, S. Antonelli, R. Apsimon, G. Arabidze, I. Aracena, Y. Arai, A. T. H. Arce, J. P. Archambault, J. F. Arguin, E. Arik, M. Arik, K. E. Arms, S. R. Armstrong, M. Arnaud, C. Arnault, A. Artamonov, S. Asai, S. Ask, B. Åsman, D. Asner, L. Asquith, K. Assamagan, A. Astbury, B. Athar, T. Atkinson, B. Aubert, B. Auerbach, E. Auge, K. Augsten, V. M. Aulchenko, N. Austin, G. Avolio, R. Avramidou, A. Axen, C. Ay, G. Azuelos, G. Baccaglioni, C. Bacci, H. Bachacou, K. Bachas, G. Bachy, E. Badescu, BAGNAIA, Paolo, D. C. Bailey, J. T. Baines, O. K. Baker, F. Ballester, F. Baltasar Dos Santos Pedrosa, E. Banas, D. Banfi, A. Bangert, V. Bansal, S. P. Baranov, S. Baranov, A. Barashkou, E. L. Barberio, D. Barberis, G. Barbier, P. Barclay, D. Y. Bardin, P. Bargassa, T. Barillari, M. Barisonzi, B. M. Barnett, R. M. Barnett, S. Baron, A. Baroncelli, M. Barone, A. J. Barr, F. Barreiro, J. Barreiro Guimarães da Costa, P. Barrillon, A. Barriuso Poy, N. Barros, V. Bartheld, H. Bartko, R. Bartoldus, S. Basiladze, J. Bastos, L. E. Batchelor, R. L. Bates, J. R. Batley, S. Batraneanu, M. Battistin, G. Battistoni, V. Batusov, F. Bauer, B. Bauss, D. E. Baynham, M. Bazalova, A. Bazan, P. H. Beauchemin, B. Beaugiraud, R. B. Beccherle, G. A. Beck, H. P. Beck, K. H. Becks, I. Bedajanek, A. J. Beddall, A. Beddall, P. Bednár, V. A. Bednyakov, C. Bee, S. Behar Harpaz, G. A. N. Belanger, C. Belanger Champagne, B. Belhorma, P. J. Bell, W. H. Bell, G. Bella, F. Bellachia, L. Bellagamba, F. Bellina, G. Bellomo, M. Bellomo, O. Beltramello, A. Belymam, S. Ben Ami, M. Ben Moshe, O. Benary, D. Benchekroun, C. Benchouk, M. Bendel, B. H. Benedict, N. Benekos, J. Benes, Y. Benhammou, G. P. Benincasa, D. P. Benjamin, J. R. Bensinger, K. Benslama, S. Bentvelsen, M. Beretta, D. Berge, N. Berger, J. Beringer, S. Bertolucci, N. Besson, R. M. Bianchi, S. Binet, BINI, Cesare, A. Bitadze, O. Blanch, D. Bocian, W. Bonivento, C. N. Booth, M. Bosman, K. Bouzakis, P. Branchini, O. Brandt, F. Broggi, G. Brooijmans, P. A. Bruckman de Renstrom, S. Burdin, F. Butin, C. M. Buttar, J. Butterworth, E. Cabruja Casas, M. Caccia, O. Cakir, P. Calafiura, G. Calderini, D. Calvet, F. Camarena, P. Camarri, J. Cantero, I. Caprini, M. Caprini, C. Cardeira, A. Cardini, L. Carminati, J. Carvalho, D. Casadei, M. P. Casado, M. Cascella, N. Castro, G. Cataldi, D. Cauz, C. Cerna, A. S. Cerqueira, A. Cerri, M. Chamizo llatas, D. G. Charlton, L. Chevalier, V. Chiarella, G. Chiodini, A. Christov, J. Chudoba, V. Cindro, J. V. Civera, M. Cobal, A. Coccaro, P. Coe, E. Cogneras, C. Collard, E. Coniavitis, M. J. Costa, D. Costanzo, K. Cranmer, M. Cristinziani, G. Crosetti, M. Curatolo, S. D'Auria, W. Dabrowski, C. Dallapiccola, J. Dalmau, M. Dam, G. Darbo, K. De, E. De La Cruz Burelo, C. De La Taille, B. De Lotto, U. De Sanctis, J. B. De Vivie De Regie, E. Delagnes, M. Della Pietra, P. A. Delsart, P. Dervan, DI DOMENICO, Antonio, A. Di Mattia, A. Di Simone, J. Dietrich, R. Dipanjan, F. Dittus, T. Djobava, M. A. B. do Vale, M. Dobbs, I. Dolenc, M. Donega, A. Doria, M. T. Dova, A. T. Doyle, Z. Drasal, H. Duran Yildiz, M. Dwuznik, U. Egede, L. M. Eklund, M. Ellert, N. Ellis, M. Elsing, A. Ereditato, M. Escalier, C. Escobar, X. Espinal Curull, E. Etzion, H. Evans, L. Fabbri, P. Faccioli, M. Fanti, A. Farbin, F. Fassi, L. Feld, L. Feligioni, A. Ferrer, D. Ferrere, S. Fichet, L. Fiorini, M. Flechl, I. Fleck, C. M. Fleta Corral, J. Flix, L. R. Flores Castillo, A. Formica, H. Fox, P. Francavilla, R. S. French, J. Fulachier, E. Fullana Torregrosa, G. Gagliardi, GAUZZI, Paolo, C. N. P. Gee, M. H. Genest, GENTILE, Simonetta, B. Giacobbe, GIAGU, Stefano, S. M. Gibson, I. Gil Botella, M. P. Giordani, C. Glasman, T. Golling, A. Gomes, A. Gongadze, S. Gonzalez, L. Goossens, E. Gorini, J. Gouveia, C. Goy, F. Grancagnolo, S. Grancagnolo, H. M. Gray, P. Grybos, L. Guy, C. Gwenlan, C. B. Gwilliam, A. Haas, J. Haller, K. Hashemi, S. Hassani, S. Haug, M. Hauschild, S. Henrot Versille, G. Herten, S. J. Hillier, M. C. Hodgkinson, T. Hryn'ova, F. Hubaut, B. T. Huffman, R. E. Hughes Jones, G. Iacobucci, M. Idzik, K. Ishii, J. M. Izen, S. Jézéquel, S. S. Junnarkar, S. Kabana, A. Kaczmarska, V. Kartvelishvili, A. N. Karyukhin, R. Keeler, M. Keil, E. Khramov, J. Kirk, A. E. Kiryunin, E. B. Klinkby, B. R. Ko, T. Koffas, H. Kolanoski, T. Kono, R. Konoplich, N. Konstantinidis, V. V. Kostyukhin, C. Kourkoumelis, R. Kowalewski, A. Krasznahorkay, A. Kugel, Y. Kulchitsky, H. Kurashige, L. L. Kurchaninov, P. Kuzhir, M. La Rosa, C. Lacasta, LACAVA, Francesco, R. Lafaye, T. Lagouri, E. Lamanna, F. Lambert, E. Lancon, M. P. J. Landon, F. Ledroit Guillon, J. S. H. Lee, R. Leitner, D. Lelas, K. J. C. Leney, C. Leroy, C. G. Lester, M. Leyton, W. Li, Z. Liang, A. Liolios, A. Lipniacka, A. M. Litke, M. Livan, A. Lleres, P. Loch, T. Lohse, K. Lohwasser, M. Lokajicek, A. Lowe, M. Lozano Fantoba, LUCI, Claudio, A. Lucotte, F. Luehring, R. J. Madaras, A. Maio, Y. Makida, P. Malecki, V. P. Maleev, F. Malek, J. Mamuzic, A. Manabe, G. Manca, J. Maneira, P. S. Mangeard, A. Mapelli, L. March, J. F. Marchand, F. Marroquim, E. Mazzoni, R. A. McPherson, C. Meirosu, E. Meoni, M. Michelotto, P. Miele, A. I. Mincer, V. A. Mitsou, G. Moloney, S. Montesano, R. W. Moore, A. Moraes, A. Moreno, D. Moreno, P. Morettini, M. Morii, J. Morin, A. K. Morley, M. C. Morone, E. J. W. Moyse, J. Mueller, W. J. Murray, Y. Nagai, Y. Nagasaka, A. M. Nairz, I. Nasteva, E. Nebot, S. Nemecek, C. Nicholson, J. Nielsen, K. Nikolopoulos, A. Nisati, M. Nozaki, C. Oliver, A. Olszewski, J. Olszowska, A. Onofre, B. Osculati, N. Ozturk, S. Padhi, S. Palestini, A. Paoloni, I. Papadopoulos, S. J. M. Peeters, S. V. Peleganchuk, G. Pellegrini, A. Pereira, E. Perepelkin, L. Perini, R. Perrino, F. Petrucci, A. Phan, J. Pina, M. A. Pleier, C. Posch, C. J. Potter, J. Poveda, P. Pralavorio, D. Price, K. Prokofiev, J. Qian, F. Ragusa, P. N. Ratoff, D. Rebuzzi, K. Reeves, M. Ridel, A. Robson, C. Roda, A. Romaniouk, L. Roos, E. Ros, S. Rosati, L. Rossi, M. Rotaru, D. Rousseau, Y. Rozen, F. Ruggieri, H. F. W. Sadrozinski, P. Sala, A. Salamon, A. Salzburger, B. H. Samset, D. P. C. Sankey, J. Santander, L. Santi, J. Santos, J. G. Saraiva, O. Sasaki, V. Savinov, J. Schaarschmidt, C. Schiavi, J. Schieck, M. Schioppa, C. Schmitt, M. E. Sevior, A. Sfyrla, M. Shapiro, T. G. Shears, M. Shimojima, G. Siragusa, K. Sliwa, S. Yu Smirnov, Y. Smirnov, O. Smirnova, J. Smith, K. Smolek, A. A. Snesarev, S. Snyder, M. Soares, SOLFAROLI CAMILLOCCI, ELENA, M. Sorbi, V. V. Sosnovtsev, L. Spogli, P. Staroba, W. Stiller, A. Straessner, B. Stugu, V. V. Sulin, Z. Sun, I. Sykora, R. R. Szczygiel, G. Tartarelli, G. Taylor, R. P. Taylor, J. Terron, E. Thomas, S. Tisserant, M. Titov, S. Todorova Nova, K. Tokushuku, J. Toth, I. M. Trigger, B. Trocmé, C. Troncon, I. Tsiafis, S. Tsuno, B. Vachon, S. Vahsen, P. Valente, A. Valero, P. van Gemmeren, I. van Vulpen, G. Vandoni, R. Vari, D. Varouchas, K. E. Varvell, F. Veloso, S. Veneziano, A. Ventura, S. Ventura, V. Vercesi, M. Verducci, J. C. Vermeulen, M. C. Vetterli, T. Vickey, M. Villa, J. Villate, M. G. Vincter, S. Viret, I. Vivarelli, S. Vlachos, M. Volpi, M. Vos, J. H. Vossebeld, N. Vranjes, R. S. Wallny, C. Wang, A. Warburton, P. M. Watkins, C. Weiser, A. Wemans, T. Wenaus, T. Wengler, M. J. White, W. Wiedenmann, M. Wielers, S. Willocq, L. Winton, H. Wolters, S. L. Wu, X. Wu, Z. Yan, J. Ye, K. Yorita, C. Young, T. Zenis, S. Zenz, X. Zhao, A. Zhemchugov, N. Zhou, L. Zivkovic +644 moreopenaire +20 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. We discuss the feasibility and utility of the supersymmetric monojet signal.B. C. Allanach, Sebastian Grab, Howard E. Haber +2 moreopenaire +4 more sources