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21061por Baiatian, G, Sirunyan, Albert M, Emeliantchik, Igor, Massolov, V, Shumeiko, Nikolai, Stefanovich, R, Damgov, Jordan, Dimitrov, Lubomir, Genchev, Vladimir, Piperov, Stefan, Vankov, Ivan, Litov, Leander, Bencze, Gyorgy, Vesztergombi, Gyorgy, Zálán, Peter, Bawa, Harinder Singh, Beri, Suman Bala, Bhatnagar, Vipin, Kaur, Manjit, Kohli, Jatinder Mohan, Kumar, Arun, Singh, Jas Bir, Acharya, Bannaje Sripathi, Banerjee, Sunanda, Banerjee, Sudeshna, Chendvankar, Sanjay, Dugad, Shashikant, Kalmani, Suresh Devendrappa, Katta, S, Mazumdar, Kajari, Mondal, Naba Kumar, Nagaraj, P, Patil, Mandakini Ravindra, Reddy, L, Satyanarayana, B, Sudhakar, Katta, Verma, Piyush, Paktinat, S, Golutvin, Igor, Kalagin, Vladimir, Kosarev, Ivan, Mescheryakov, G, Sergeyev, S, Smirnov, Vitaly, Volodko, Anton, Zarubin, Anatoli, Gavrilov, Vladimir, Gershtein, Yuri, Kaftanov, Vitali, Kisselevich, I, Kolossov, V, Krokhotin, Andrey, Kuleshov, Sergey, Litvintsev, Dmitri, Stolin, Viatcheslav, Ulyanov, A, Demianov, A, Gribushin, Andrey, Kodolova, Olga, Petrushanko, Sergey, Sarycheva, Ludmila, Vardanyan, Irina, Yershov, A, Abramov, Victor, Goncharov, Petr, Khmelnikov, Alexander, Korablev, Andrey, Korneev, Yury, Krinitsyn, Alexander, Kryshkin, V, Lukanin, Vladimir, Pikalov, Vladimir, Ryazanov, Anton, Talov, Vladimir, Turchanovich, L, Volkov, Alexey, Camporesi, Tiziano, De Visser, Theo, Vlassov, E, Aydin, Sezgin, Dumanoglu, Isa, Eskut, Eda, Kayis-Topaksu, A, Kuzucu-Polatoz, A, Onengüt, G, Ozdes-Koca, N, Cankocak, Kerem, Ozok, Ferhat, Serin-Zeyrek, M, Sever, Ramazan, Zeyrek, Mehmet, Gülmez, Erhan, Isiksal, Engin, Kaya, Mithat, Ozkorucuklu, Suat, Levchuk, Leonid, Sorokin, Pavel, Grinev, B, Lubinsky, V, Senchishin, V, Anderson, E Walter, Hauptman, John M, Elias, John E, Elvira, D, Freeman, Jim, Green, Dan, Lazic, Dragoslav, Los, Serguei, O'Dell, Vivian, Ronzhin, Anatoly, Suzuki, Ichiro, Vidal, Richard, Whitmore, Juliana, Antchev, Georgy, Hazen, Eric, Lawlor, C, Machado, Emanuel, Posch, C, Rohlf, James, Wu, Shouxiang, Adams, Mark Raymond, Burchesky, Kyle, Qiang, W, Abdullin, Salavat, Baden, Drew, Bard, Robert, Eno, Sarah Catherine, Grassi, Tullio, Jarvis, Chad, Kellogg, Richard G, Kunori, Shuichi, Skuja, Andris, Podrasky, V, Sanzeni, Christopher, Winn, Dave, Akgun, Ugur, Ayan, S, Duru, Firdevs, Merlo, Jean-Pierre, Mestvirishvili, Alexi, Miller, Michael, Norbeck, Edwin, Olson, Jonathan, Onel, Yasar, Schmidt, Ianos, Akchurin, Nural, Carrell, Kenneth Wayne, Gumu, K, Thomas, Ray, Baarmand, Marc M, Ralich, Robert, Vodopiyanov, Igor, Cushman, Priscilla, Heering, Arjan Hendrix, Sherwood, Brian, Cremaldi, Lucien Marcus, Reidy, Jim, Sanders, David A, Karmgard, Daniel John, Ruchti, Randy, Fisher, Wade Cameron, Mans, Jeremy, Tully, Christopher, De Barbaro, Pawel, Bodek, Arie, Budd, Howard, Chung, Yeon Sei, Haelen, T, Imboden, Matthias, Hagopian, Sharon, Hagopian, Vasken, Johnson, Kurtis F, Barnes, Virgil E, Laasanen, Alvin T, Pompos, Arnold“…Extensive measurements have been made with pions, electrons and muons on four production wedges of the Compact Muon Solenoid (CMS) hadron barrel (HB) calorimeter in the H2 beam line at CERN with particle momenta varying from 20 to 300 GeV/c. Data were taken both with and without a prototype electromagnetic lead tungstate crystal calorimeter (EB) in front of the hadron calorimeter. …”
Publicado 2007
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21062por Schael, S, Barate, R, Brunelière, R, De Bonis, I, Décamp, D, Goy, C, Jézéquel, S, Lees, J P, Martin, F, Merle, E, Minard, M N, Pietrzyk, B, Trocmé, B, Bravo, S, Casado, M P, Chmeissani, M, Crespo, J M, Fernández, E, Fernández-Bosman, M, Garrido, L, Martínez, M, Pacheco, A, Ruiz, H, Colaleo, A, Creanza, D, De Filippis, N, De Palma, M, Iaselli, G, Maggi, G, Maggi, M, Nuzzo, S, Ranieri, A, Raso, G, Ruggieri, F, Selvaggi, G, Silvestris, L, Tempesta, P, Tricomi, A, Zito, G, Huang, X, Lin, J, Ouyang, Q, Wang, T, Xie, Y, Xu, R, Xue, S, Zhang, J, Zhang, L, Zhao, W, Abbaneo, D, Barklow, T, Buchmüller, O L, Cattaneo, M, Clerbaux, B, Drevermann, H, Forty, R W, Frank, M, Gianotti, F, Hansen, J B, Harvey, J, Hutchcroft, D E, Janot, P, Jost, B, Kado, M, Mato, P, Moutoussi, A, Ranjard, F, Rolandi, L, Schlatter, D, Teubert, F, Valassi, A, Videau, I, Badaud, F, Dessagne, S, Falvard, A, Fayolle, D, Gay, P, Jousset, J, Michel, B, Monteil, S, Pallin, D, Pascolo, J M, Perret, P, Hansen, J D, Hansen, J R, Hansen, P H, Kraan, A C, Nilsson, B S, Kyriakis, A, Markou, C, Simopoulou, E, Vayaki, A, Zachariadou, K, Blondel, A, Brient, J C, Machefert, F, Rougé, A, Videau, H, Ciulli, V, Focardi, E, Parrini, G, Antonelli, A, Antonelli, M, Bencivenni, G, Bossi, F, Capon, G, Cerutti, F, Chiarella, V, Laurelli, P, Mannocchi, G, Murtas, G P, Passalacqua, L, Kennedy, J, Lynch, J G, Negus, P, O'Shea, V, Thompson, A S, Wasserbaech, S, Cavanaugh, R, Dhamotharan, S, Geweniger, C, Hanke, P, Hepp, V, Kluge, E E, Putzer, A, Stenzel, H, Tittel, K, Wunsch, M, Beuselinck, R, Cameron, W, Davies, G, Dornan, P J, Girone, M, Marinelli, N, Nowell, J, Rutherford, S A, Sedgbeer, J K, Thompson, J C, White, R, Ghete, V M, Girtler, P, Kneringer, E, Kuhn, D, Rudolph, G, Bouhova-Thacker, E, Bowdery, C K, Clarke, D P, Ellis, G, Finch, A J, Foster, F, Hughes, G, Jones, R W L, Pearson, M R, Robertson, N A, Sloan, T, Smizanska, M, van der Aa, O, Delaere, C, Leibenguth, G, Lemaître, V, Blumenschein, U, Hölldorfer, F, Jakobs, K, Kayser, F, Müller, A S, Renk, B, Sander, H G, Schmeling, S, Wachsmuth, H, Zeitnitz, C, Ziegler, T, Bonissent, A, Coyle, P, Curtil, C, Ealet, A, Fouchez, D, Payre, P, Tilquin, A, Ragusa, F, David, A, Dietl, H, Ganis, G, Hüttmann, K, Lütjens, G, Männer, W, Moser, H G, Settles, R, Villegas, M, Wolf, G, Boucrot, J, Callot, O, Davier, M, Duflot, L, Grivaz, J F, Heusse, P, Jacholkowska, A, Serin, L, Veillet, J J, Azzurri, P, Bagliesi, G, Boccali, T, Foà, L, Giammanco, A, Giassi, A, Ligabue, F, Messineo, A, Palla, F, Sanguinetti, G, Sciabà, A, Sguazzoni, G, Spagnolo, P, Tenchini, R, Venturi, A, Verdini, P G, Awunor, O, Blair, G A, Cowan, G, García-Bellido, A, Green, M G, Medcalf, T, Misiejuk, A, Strong, J A, Teixeira-Dias, P, Clifft, R W, Edgecock, T R, Norton, P R, Tomalin, I R, Ward, J J, Bloch-Devaux, B, Boumediene, D, Colas, P, Fabbro, B, Lançon, E, Lemaire, M C, Locci, E, Pérez, P, Rander, J, Tuchming, B, Vallage, B, Litke, A M, Taylor, G, Booth, C N, Cartwright, S, Combley, F, Hodgson, P N, Lehto, M H, Thompson, L F, Böhrer, A, Brandt, S, Grupen, C, Hess, J, Ngac, A, Prange, G, Borean, C, Giannini, G, He, H, Pütz, J, Rothberg, J E, Armstrong, S R, Berkelman, K, Cranmer, K, Ferguson, D P S, Gao, Y, González, S, Hayes, O J, Hu, H, Jin, S, Kile, J, McNamara, P A, III, Nielsen, J, Pan, Y B, Von Wimmersperg-Töller, J H, Wiedenmann, W, Wu, J, Wu Sau Lan, Wu, X, Zobernig, G, Dissertori, G“…The ZZ production cross section is measured from a data sample corresponding to a total integrated luminosity of 452 pb−1, collected by the ALEPH experiment at LEP at centre-of-mass energies from 192 to 209 GeV. Individual cross sections, extracted at six centre-of-mass energies, are found to be in agreement with Standard Model calculations. …”
Publicado 2009
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21063por Venturini, G“…The particles accelerated in CERN accelerator chain reach high energies, topped by the particle energy at collision in the LHC, 7 GeV. During the operation, an amount of particles is inevitably lost from the beam. …”
Publicado 2010
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21064por Cardinale, Roberta“…This identification is provided by two RICH (Ring Imaging CHerenkov) detectors covering the particle momentum range 1 $\div$ 100 GeV/$c$. Cherenkov photons are detected using Hybrid Photon Detector (HPD). …”
Publicado 2009
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21065por De Gruttola, Michele“…\pm0.101(lumi.)nb$,(2) referred to the invariant mass range $60 < m_{\mu^{+}\mu^{-}}<120GeV/c^{2}$. The value measured is in agreement with the Standard Model prediction. …”
Publicado 2010
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21066por Abgrall, Nicolas“…The latter performed measurements of p+C interactions at 31 GeV/c beam momentum on both a thin (4% of the interaction length) target and a full-size (1.9 interaction length) replica of the T2K production target. …”
Publicado 2011
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21067por Kimura, N“…We report on the development of the Fast Tracker (FTK) processor for the ATLAS experiment, devoted to reconstruct tracks with transverse momentum above 1 GeV in the whole detector for any event accepted by level 1 trigger. …”
Publicado 2013
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21068por La, Viet Nga Thi“…For this purpose, we generated the stau pairs with seven different particle masses ranging from 124 to 309 GeV/c$^2$ and simulated their path through the LHCb detector, as well as their muon background from the decays $Z^0,\gamma^* \rightarrow \mu^+ \mu^-$. …”
Publicado 2014
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21069por Pöttgen, Ruth“…The discovery potential ultimately reaches up to suppression scales of $2.6\,$TeV, while for $\sqrt{s} = 8\,$TeV it is of the order of $700\,$GeV.…”
Publicado 2016
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21070por Bartosik, Nazar“…Its generic implementation provides equally high performance with allparton-shower generators that are used at CMS, and was chosen as a recommendedway of heavy-flavour-jet definition in future CMS analyses.As one of the primary results of this thesis, the cross sections of top-quark-pairproduction in association with at least one (ttb(b)) or at least two (ttbb) b jets withpT > 20 GeV were measured differentially as functions of transverse momentum(pT ) and absolute pseudorapidity (|η|) of the first or the second additional b jetrespectively. …”
Publicado 2015
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21071por Norman, Jaime“…The transverse momentum dependence of the ${\rm \Lambda_{c}^{+}}$ baryon production cross section has been measured in proton-proton collisions at a centre-of-mass energy of $7 ~$TeV and proton-lead collisions at a centre-of-mass energy per nucleon-nucleon collision of $5.02 ~$TeV, in the transverse momentum range $2 < p_{\rm T} < 12 ~\mathrm{GeV}/c$, and is shown to be under-predicted by theoretical calculations. …”
Publicado 2018
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21072por Abe, T., Arkani-Hamed, N., Asner, D., Baer, H., Bagger, J., Balazs, C., Baltay, C., Barker, T., Barklow, T., Barron, J., Baur, U., Beach, R., Bellwied, R., Bigi, I., Blöchinger, C., Boege, S., Bolton, T., Bower, G., Brau, J., Breidenbach, M., Brodsky, S.J., Burke, D., Burrows, P., Butler, J.N., Chakraborty, D., Cheng, H.C., Chertok, M., Choi, S.Y., Cinabro, D., Corcella, G., Cordero, R.K., Danielson, N., Davoudiasl, H., Dawson, S., Denner, A., Derwent, P., Diaz, M.A., Dima, M., Dittmaier, S., Dixit, M., Dixon, L., Dobrescu, B., Doncheski, M.A., Duckwitz, M., Dunn, J., Early, J., Erler, J., Feng, J.L., Ferretti, C., Fisk, H.E., Fraas, H., Freitas, A., Frey, R., Gerdes, D., Gibbons, L., Godbole, R., Godfrey, S., Goodman, E., Gopalakrishna, S., Graf, N., Grannis, P.D., Gronberg, J., Gunion, J., Haber, H.E., Han, T., Hawkings, R., Hearty, C., Heinemeyer, S., Hertzbach, S.S., Heusch, C., Hewett, J., Hikasa, K., Hiller, G., Hoang, A., Hollebeek, R., Iwasaki, M., Jacobsen, R., Jaros, J., Juste, A., Kadyk, J., Kalinowski, J., Kalyniak, P., Kamon, T., Karlen, D., Keller, L., Koltick, D., Kribs, G., Kronfeld, A., Leike, A., Logan, H.E., Lykken, J., Macesanu, C., Magill, S., Marciano, W., Markiewicz, T.W., Martin, S., Maruyama, T., Matchev, K., Moenig, K., Montgomery, H.E., Moortgat-Pick, G., Moreau, G., Mrenna, S., Murakami, B., Murayama, H., Nauenberg, U., Neal, H., Newman, B., Nojiri, M., Orr, L.H., Paige, F., Para, A., Pathak, S., Peskin, M.E., Plehn, T., Porter, F., Potter, C., Prescott, C., Rainwater, D., Raubenheimer, T., Repond, J., Riles, K., Rizzo, T., Ronan, M., Rosenberg, L., Rosner, J., Roth, M., Rowson, P., Schumm, B., Seppala, L., Seryi, A., Siegrist, J., Sinev, N., Skulina, K., Sterner, K.L., Stewart, I., Su, S., Tata, X., Telnov, V., Teubner, T., Tkaczyk, S., Turcot, A.S., van Bibber, K., van Kooten, R., Vega, R., Wackeroth, D., Wagner, D., Waite, A., Walkowiak, W., Weiglein, G., Wells, J.D., W.Wester, III, Williams, B., Wilson, G., Wilson, R., Winn, D., Woods, M., Wudka, J., Yakovlev, O., Yamamoto, H., Yang, H.J.“…Part 1 contains the table of contents and introduction and gives a summary of the case for a 500 GeV linear collider.…”
Publicado 2001
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21073por Salerno, Daniel Nicholas“…This is thefirst time that the MEM has been used in a fully hadronic final state at CMS.The results are interpreted via an observed t¯H signal strength relative to the SMtcross section under the assumption of mH = 125 GeV, i.e. µ = σ/σSM . A binnedmaximum likelihood fit is performed to the MEM discriminant in all categories to extracta best-fit value of µ = 0.9±1.5. …”
Publicado 2018
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21074por Sirvent Blasco, Jose Luis“…This document analyses the results from several measurement campaigns on SPS over its energy and intensity boundaries (5e9 - 1.1e11 protons per bunch and 26 - 450 GeV). The SPS results suggest a potential application on LHC beam wire scanners.…”
Publicado 2018
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21075por Sels, Simon Mark C“…The mercury radioactive ion beams were produced by impinging a 1.4 GeV proton beam on a molten-lead target. The reaction products were extracted, resonantly ionized using a three-step laser-ionization scheme, mass separated and sent to one of three detection setups. …”
Publicado 2018
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21076por Lubatti, Henry, Alpigiani, Cristiano, Arteaga-Velázquez, Juan Carlos, Ball, Austin, Barak, Liron, Beacham, James, Benhammo, Yan, Caballero-Mora, Karen Salomé, Camarri, Paolo, Cao, Tingting, Cardarelli, Roberto, Chou, John Paul, Curtin, David, de Roeck, Albert, Di Sciascio, Giuseppe, Diamond, Miriam, Drewes, Marco, Eno, Sarah C., Essig, Rouven, Evans, Jared, Etzion, Erez, Fernández Téllez, Arturo, Fischer, Oliver, Freeman, Jim, Giagu, Stefano, Gomes, Brandon, Haas, Andy, Heng, Yuekun, Iaselli, Giuseppe, Johns, Ken, Karagoz, Muge, Kvam, Audrey, Lazic, Dragoslav, Li, Liang, Liberti, Barbara, Liu, Zhen, Marsella, Giovanni, Paye Mamani, Piter A., Hernández, Mario Iván Martínez, McCullough, Matthew, McKeen, David, Meade, Patrick, Mizrachi, Gilad, Morrissey, David, Moshe, Meny Raviv, Policicchio, Antonio, Proffitt, Mason, Reggiani-Guzzo, Marina, Rodríguez-Cahuantzi, Mario, Rothberg, Joe, Santonico, Rinaldo, Schioppa, Marco, Shelton, Jessie, Shuve, Brian, Silver, Yiftah, Stolarski, Daniel, Subieta Vasquez, Martin A., Muñoz, Guillermo Tejeda, Thayil, Steffie Ann, Tsai, Yuhsin, Torro, Emma, Watts, Gordon, Young, Charles, Zurita, Jose“…With the current experiments at the particle accelerators, no search strategy will be able to observe the decay of neutral long-lived particles with masses above GeV and lifetimes at the limit set by Big Bang Nucleosynthesis, cτ ∼ 107–108 m. …”
Publicado 2019
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21077por Muhuri, Sanjib“…The limited capability in forward rapidity with LHC experiments like ALICE has an opportunity for a calorimeter which can measure high energy (up to 200 GeV) photons from different sources. Calorimeter, being a unique technique to measure Heat (Energy in the wider sense), can be used in detecting and characterizing particles of different nature (mass, charge, structure) over a wide range of incident energy. …”
Publicado 2019
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21078por Iltzsche, Franziska“…The highest signal-to-background ratio is reached in the high-$m_\text{jj}$ region above 1500 GeV. Electroweak, leptonic $W^{\pm} W^{\pm}$ production is significantly observed with a significance of 6.7 $\sigma$. …”
Publicado 2019
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21079por Luise, Ilaria“…. \\ The Standard Model Higgs boson - with a mass of $m_H = 125$ GeV - is expected to decay to a pair of bottom quarks, also referred to as $H \to b\overline{b}$, more than half of the times (58\%). …”
Publicado 2019
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21080por Sharma, Ram Krishna“…In July 2012, a new Higgs-like particle, with mass ≈125 GeV, was discovered at the Large Hadron Collider (LHC). …”
Publicado 2019
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