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  1. 20901
    por Buckland, Matthew Daniel
    Publicado 2018
    “…The performance of the HV-CMOS assemblies was assessed at the CERN SPS using 120 GeV/c secondary beams. This was done over an incident angle range of 0–80° and showed excellent efficiency above 99.7% and a spatial resolution of 5–7μm after etacorrection was applied to correct for non-linear charge sharing. …”
    Enlace del recurso
    Simulation and evaluation of HV-CMOS pixel sensors for the CLIC vertex detector
  2. 20902
    por Velasco Frutos, Miguel Angel
    Publicado 2018
    “…As a consequence, 95% C.I. upper limits on the dipole anisotropy have been computed, and are found to be: 0.01 for protons above 300 GV; and 0.006 for electrons, and 0.02 for positrons in the energy range between 16 and 350 GeV.…”
    Enlace del recurso
    Measurement of the large scale anisotropy in cosmic ray electrons, positrons and protons with the AMS-02 detector on the ISS
  3. 20903
    por Benato, Lisa
    Publicado 2018
    “…The groomed jet mass is used to tag the hadronically decaying vector boson, to define the signal region of the search (close to the nominal mass of the W and Z bosons, between 65-105 GeV) and a signal-depleted control region, that is used for the background estimation. …”
    Enlace del recurso
    Search for heavy resonances decaying into a $Z$ boson and a vector boson in the $\nu \bar{\nu}$ $q\bar{q}$ final state at CMS
  4. 20904
    por Falke, Peter Johannes
    Publicado 2019
    “…A search for dielectron and dimuon resonances in the $250\,\mathrm{GeV}$ to $6\,\mathrm{TeV}$ mass range, based on the full Run 2 dataset, is presented in this thesis. …”
    Enlace del recurso
    Search for new heavy resonances in the dilepton final state and calibration of the LAr Phase-1 Upgrade demonstrator at the ATLAS experiment
  5. 20905
    por Buratin, Elena
    Publicado 2020
    “…As expected, the bunch spacing has a crucial importance on the formation of EC dynamic: the 50 ns filling scheme avoids the multipacting effect at 450 GeV. At 6.5 TeV the photoelectron contribution is visible, with no multipacting. …”
    Enlace del recurso
    Electron Cloud and Synchrotron Radiation characterization of technical surfaces with the Large Hadron Collider Vacuum Pilot Sector
  6. 20906
    por Zhang, Yixuan
    Publicado 2020
    “…CLIC - the Compact Linear Collider - is a proposed high energy electron-positron collider with collision energies between 350 and 3000 GeV. The LHC is a high energy proton-proton collider at CERN operating at 13 TeV. …”
    Enlace del recurso
    Prospects for Precision Measurements of the Top-Yukawa Coupling and CP Violation in $t\overline{t}H$ Production at the CLIC $e^+e^-$ Collider
  7. 20907
    por Schimmel Brener, Roy
    Publicado 2021
    “…Finally, using Monte Carlo simulations of processes where $q\bar{q}+\gamma \rightarrow Z' \rightarrow q\bar{q}$ for a mass range $m_{Z'} \in [100, 220] \, \textrm{GeV}$, the sensitivity to the new resonance is estimated and provided in terms of cross section and coupling confidence level limits.…”
    Enlace del recurso
    Estimating the Sensitivity to New Resonances Decaying to Boosted Quark Pairs and Produced in Association with a Photon in the ATLAS Experiment
  8. 20908
    por Ghosh, Jhuma
    Publicado 2021
    “…The calculations based on NRQCD+CGC well reproduce the ratio as a function of pt and y for pt < 8 GeV/c. The trend of the over cross-section ratio as a function of pt and y is overestimated by the CEM model in the low pt region. …”
    Enlace del recurso
    Charmonium studies at forward rapidity with ALICE Muon Spectrometer at the LHC
  9. 20909
    por Li, Zhi
    Publicado 2022
    “…No significant excess was found beyond the Standard Model background prediction in a mass range between 200 GeV and 5 TeV. Upper limits at 95% CL are set on the resonance production cross section times branching fraction $X\rightarrow WW$.…”
    Enlace del recurso
    Studies of the Higgs boson properties and search for new physics beyond the standard model in multilepton final states with the ATLAS detector at LHC
  10. 20910
    por Alekou, A., Baussan, E., Kraljevic, N. Blaskovic, Blennow, M., Bogomilov, M., Bouquerel, E., Burgman, A., Carlile, C.J., Cederkall, J., Christiansen, P., Collins, M., Morales, E. Cristaldo, Cupial, P., Alessi, L.D., Danared, H., de Andre, J.P.A.M., Delahaye, J.P., Dracos, M., Efthymiopoulos, I., Ekelof, T., Eshraqi, M., Fanourakis, G., Fernandez-Martinez, E., Folsom, B., Gazis, N., Geralis, Th., Ghosh, M., Gokbulut, G., Halic, L., Topaksu, A. Kayis, Kildetoft, B., Klicek, B., Koziol, M., Krhac, K., Lacny, L., Lindroos, M., Mezzetto, M., Oglakci, M., Ohlsson, T., Olvegard, M., Ota, T., Park, J., Patrzalek, D., Petkov, G., Poussot, P., Johansson, R., Rosauro-Alcaraz, S., Szybinski, B., Snamina, J., Stavropoulos, G., Stipcevic, M., Terranova, F., Thomas, J., Tolba, T., Trachanas, E., Tsenov, R., Vankova-Kirilova, G., Vassilopoulos, N., Wildner, E., Wurtz, J., Zormpa, O., Zou, Y.
    Publicado 2022
    “…For this, the ESS proton beam LINAC, which is designed to produce the world's most intense neutron beam, will need to be upgraded to 10 MW power, 2.5 GeV energy and 28 Hz beam pulse repetition rate. …”
    Enlace del recurso
    The European Spallation Source neutrino Super Beam
  11. 20911
    por Aberle, O, Ahdida, C, Albanese, R, Alt, J, Alexandrov, A, Aoki, S, Aritunov, D, Arrutia, P, Bay, A, Balazs, K, Betancourt, C, Bezshyiko, I, Bezshyyko, O, Bick, D, Blanco, A, Bogomilov, M, Boiarska, I, Bondarenko, K, Bonivento, W M, Boyarsky, A, Bohles, M, Breton, D, Brignoli, A, Buonaura, A, Buontempo, S, Calviani, M, Campanelli, M, Centanni, D, Choi, K-Y, Climescu, M, Conaboy, A, Congedo, L, Cristinziani, M, Crupano, A, Dallavalle, G M, D'Ambrosio, N, de Asmundis, R, de Bryas, P, De Carvalho Saraiva, J, De Lellis, G, de Magistris, M, De Roeck, A, De Serio, M, De Simone, D, Dergachev, P, Deucher, P, Di Crescenzo, A, Dijkstra, H, Durhan, O, Dutheil, Y, Elikkaya, E, Esposito, L S, Fedotovs, F, Ferrillo, M, Ferro-Luzzi, M, Fini, R A, Fiorillo, G, Fischer, H, Fonte, P, Franqueira Ximenes, R, Fraser, M, Fresa, R, Fukuda, T, Galati, G, Galleazzi, F, Gilardoni, S, Golinka-Bezshyyko, L, Golovatiuk, A, Golutvin, A, Gorkavenko, V, Graverini, E, Grenard, J-L, Grewing, C, Griesemer, T, Guler, A M, Haefeli, G J, Hagner, C, Helo, J C, van Herwijnen, E, Hollnagel, A, Iuliano, A, Jacobsson, R, Jonker, M, Kadenko, I, Kain, V, Kamiscioglu, C, Kim, Y G, Kitagawa, N, Kodama, K, Kolev, D I, Komatsu, M, Kostyukhin, V, Krzempek, L, Kuleshov, S, Kurbatov, E, Lacker, H M, Lafarge, D, Lantwin, O, Lauria, A, Lee, K S, Lee, K Y, Leonardo, N, Loschiavo, V P, Lopes, L, Lyons, F, Maalmi, J, Magnan, A-M, Marsh, S, Marshall, A M, Martin Ruiz, J M, Mazzola, G, Mena Andrade, R F, Miano, A, Mikado, S, Mikulenko, A, Montesi, M C, Morishima, K, Muttoni, Y, Naganawa, N, Nakamura, M, Nakano, T, Navascues Cornago, A, Ninin, P, Ogawa, S, Osborne, J, Ovchynnikov, M, Owtscharenko, N, Park, B D, Pastore, A, Patel, M, Petridis, K, Prota, A, Quercia, A, Rademakers, A, Ramjiawan, R, Ratnikov, F, Redi, F, Reghunath, A, Rokujo, H, Ruchayskiy, O, Ruf, T, Sanchez Galan, F, Santos Dias, P, Sato, O, Schmidt-Parzefall, W, Schumann, M, Serra, N, Shaposhnikov, M, Shchutska, L, Shibuya, H, Simone, S, Soares, G, Sohn, J Y, Sokolenko, A, Soto, O, Takahashi, S, Tastet, J L, Timiryasov, I, Tioukov, V, Tommasini, D, Treille, D, Tsenov, R, Ulloa, P, Ursov, E, Vankova-Kirilova, G, Velotti, F, Vilchinski, S, Vincke, H, Visone, C, van Waasen, S, Vojtyla, P, Wertelaers, P, Wurm, M, Xella, S, Yilmaz, D, Yoon, C S, Zamora Saa, J
    Publicado 2022
    “…The BDF/SHiP collaboration has proposed a general-purpose intensity-frontier experimental facility operating in beam-dump mode at the CERN SPS accelerator to search for feebly interacting GeV-scale particles and to perform measurements in neutrino physics. …”
    Enlace del recurso
    BDF/SHiP at the ECN3 high-intensity beam facility
  12. 20912
    por Islam, Md Samsul
    Publicado 2023
    “…In this thesis, the HFM production cross-section is measured at the highest available energy $\sqrt{s} = $ 13 TeV of LHC during Run 2 using MS of ALICE detector with an extended transverse momentum range $2<p_{T}<30$ GeV/$\it{c}$. This new measurement of the production of HFM is compared with the theoretical FONLL (Fixed-Order + Next-to-Leading Logarithms) calculations and found to be in good agreement almost over the whole $p_{T}$ range within the theoretical uncertainties.\\ After the discovery of the features of HI collisions such as ridge like effect and strangeness enhancement in high multiplicity pp events at LHC, it is of very interest to investigate the collective effects even in small colliding systems. …”
    Enlace del recurso
    Study of heavy flavour decay muons at forward rapidity in proton-proton and heavy-ion collisions at LHC energies
  13. 20913
    por Kretzschmar, Sophie
    Publicado 2023
    “…In the $q^2$ range $1.1 < q^2 < 6.0\,\text{GeV}^2 \!/c^4$, the branching fraction is found to be $3.6\,\sigma$ below a prediction based on lattice QCD and light-cone sum rule (LCSR) calculations and $1.8\,\sigma$ lower compared to LCSR calculations only. …”
    Enlace del recurso
    Study of the rare $B_s^0\to\phi\mu^+\mu^-$ and $B_s^0\to f_2'(1525)\mu^+\mu^-$ decays
  14. 20914
    por Jerhot, Jan, Akmete, A, Aliberti, R, Ambrosino, F, Mendola, R Am-, Angelucci, B, Antonelli, A, Anzivino, G, Arcidiacono, R, Bache, T, Baeva, A, Baigarashev, D, Bandiera, L, Barbanera, M, Bernhard, J, Gioni, A Bia-, Bician, L, Biino, C, Bizzeti, A, Blazek, T, Bloch-Devaux, B, Boboc, P, Bonaiuto, V, Boretto, M, Bragadireanu, M, Olvera, A Briano, Britton, D, Brizioli, F, Brunetti, M B, Bryman, D, Bucci, F, Capussela, T, Carmignani, J, Ceccucci, A, Cenci, P, Cerny, V, Cerri, C, Checcucci, B, Conovaloff, A, Cooper, P, Gil, E Cortina, Corvino, M, Costantini, F, Ramusino, A Cotta, Coward, D, Cretaro, P, D'agostini, G, Dainton, J, Dalpiaz, P, Danielsson, H, 'errico, N, Simone, D Di De, Filippo, L, Lella, N Di, Doble, B, Brich, F Do-, Duval, V, Duk, D, Emelyanov, J, Engelfried, T, Enik, N, Tristan, V Estrada-, Falaleev, R, Fantechi, V, Fascianelli, L, Federici, S, Fedotov, A, Ippi, R Fil-, Fiorenza, M, Fiorini, O, Frezza, J, Fry, J, Fu, A, Fucci, L, Fulton, E, Gamberini, L, Gatignon, G, Georgiev, S, Ghinescu, A, Gianoli, M, Giorgi, S, Giudici, F, Gonnella, K, Gorshanov, E, Goudzovski, C, Graham, R, Guida, E, Gushchin, F, Hahn, H, Heath, J, Henshaw, Z, Hives, E B, Holzer, T, Husek, Hutanu, O, Hutchcroft, D, Iacobuzio, L, Iacopini, E, Imbergamo, E, Ninger, B Jen-, Jones, R W, Kampf, K, Kekelidze, V, Kereibay, D, Denko, S Kholo-, Khoriauli, G, Khotyantsev, A, Kleimenova, A, Korotkova, A, Val, M Ko-, Kozhuharov, V, Kucerova, Z, Kudenko, Y, Kunze, J, Kurochka, V, Kurshetsov, V, Lanfranchi, G, Lamanna, G, Lari, E, Latino, G, Cock, P Lay-, Lazzeroni, C, Lenti, M, Miotto, G Lehmann, Leonardi, E, Lichard, P, Litov, L, Chiatto, P Lo, Lollini, R, Lomidze, D, Lonardo, A, Lubrano, P, Lupi, M, Lurkin, N, Madigozhin, D, Mannelli, I, Mapelli, A, Marchetto, F, Marchevski, R, Martellotti, S, Massarotti, P, Massri, K, Maurice, E, Zolari, A Maz-, Medvedeva, M, Mefodev, A, Menichetti, E, Migliore, E, Minucci, E, Mirra, M, Misheva, M, Molokanova, N, Moulson, M, Movchan, S, Tano, M Napoli-, Neri, I, Newson, F, Norton, A, Noy, M, Numao, T, Obraztsov, V, Okhotnikov, A, Ostankov, A, Padolski, S, Page, R, Palladino, V, Panichi, I, Parenti, A, Parkinson, C, Pedreschi, E, Pepe, M, Perrin-Terrin, M, Ruzzo, L Pe-, Petrov, P, Petrov, Y, Petrucci, F, Piandani, R, Piccini, M, Pinzino, J, Polenkevich, I, Pontisso, L, Potrebenikov, Yu, Protopopescu, D, Raggi, M, Santos, M Reyes, Romagnoni, M, Romano, A, Rubin, P, Ruggiero, G, Ryjov, V, Sadovsky, A, Salamon, A, Santoni, C, Saracino, G, Sargeni, F, Schuchmann, S, Semenov, V, Sergi, A, Shaikhiev, A, Shkarovskiy, S, Soldani, M, Soldi, D, Sozzi, M, Spadaro, T, Spinella, F, Sturgess, A, Sugonyaev, V, Swallow, J, Sytov, A, Tinti, G, Tomczak, A, Trilov, S, Turisini, M, Valente, P, Velghe, B, Venditti, S, Vicini, P, Volpe, R, Vormstein, M, Wahl, H, Wanke, R, Wong, V, Wrona, B, Yushchenko, O, Zamkovsky, M
    Publicado 2022
    “…NA62 experiment also searches directly for weaklyinteracting particles of up to O(100) MeV masses in kaon decays and up to O(1)GeV masses when running in the beam dump mode. For both modes of directsearches, NA62 has been collecting data since 2021 after a successful 2016-18run 1. …”
    Enlace del recurso
    NA62 results on Dark Sector searches
  15. 20915
    por Mahdavikhorrami, Mostafa
    Publicado 2023
    “…The thesis mainly concentrates on the study of the production of highly virtual H bosons, known as "off-shell" (mH > 200 GeV), through gluon fusion and vector boson fusion production modes, followed by decay in the H->ZZ->l+l-nunu channel. …”
    Enlace del recurso
    Study of the couplings between the Higgs boson and the electroweak gauge bosons in off-shell processes with the CMS experiment
  16. 20916
    por Basan, Alexander
    Publicado 2022
    “…This thesis presents the first measurement of the energy asymmetry, performed in the semi-leptonic decay channel in jet-associated top-quark pair events in the so called boosted topology, requiring the hadronically decaying top quark to have a transverse momentum above 350 GeV, and corrected for detector effects with the Fully Bayesian Unfolding (FBU) method. …”
    Enlace del recurso
    Top-antitop energy asymmetry in jet-associated top-quark pair production at ATLAS
  17. 20917
    Enlace del recurso
    Enlace del recurso
    Supersymmetric dark matter in the light of LEP1.5
  18. 20918
    por Ajaltouni, Ziad J, Albiol, F, Alifanov, A, Amaral, P, Amorim, A, Anderson, K J, Angelini, C, Astvatsaturov, A R, Autiero, D, Badaud, F, Barreira, G, Berglund, S R, Blanchot, G, Blucher, E, Blaj, C, Bogush, A A, Bohm, C, Boldea, V, Borisov, O N, Bosman, M, Bouhemaid, N, Brette, P, Bromberg, C, Brossard, M, Budagov, Yu A, Calôba, L P, Carvalho, J, Casado, M P, Cavalli-Sforza, M, Cavasinni, V, Chadelas, R, Chevaleyre, J C, Chirikov-Zorin, I E, Chlachidze, G, Cobal, M, Cogswell, F, Colaço, F, Constantinescu, S, Costanzo, D, Crouau, M, Daudon, F, David, M, Davidek, T, Dawson, J, Dugne, J J, De, K, Del Prete, T, De Santo, A, Di Girolamo, B, Dita, S, Dolejsi, J, Dolezal, Z, Downing, R, Efthymiopoulos, I, Errede, D, Errede, S, Evans, H, Ferrer, A, Flaminio, Vincenzo, Gallas, E J, Gaspar, M, Gildemeister, O, Glagolev, V V, Golubev, V B, Gómez, A, Grabskii, V, Haney, M, Hakopian, H H, Hellman, S, Henriques, A, Holmgren, S O, Honoré, P F, Huston, J, Ivanyushenkov, Yu M, Johansson, E K, Jon-And, K, Juste, A, Kakurin, S, Karapetian, G V, Karyukhin, A N, Khokhlov, Yu A, Klioukhine, V I, Kolomoets, V, Kopikov, S V, Kostrikov, M E, Kovtun, V E, Kukhtin, V V, Kulagin, M, Kulchitskii, Yu A, Lami, S, Lapin, V, Lazzeroni, C, Lebedev, A, Leitner, R, Li, J, Liba, I, Lomakin, Yu F, Lomakina, O V, Lokajícek, M, Maio, A, Malyukov, S N, Marroquin, F, Martins, J P, Mazzoni, E, Merritt, F S, Michel, B, Miller, E, Minashvili, I A, Miralles, L, Mnatzakanian, E A, Montarou, G, Muanza, G S, Némécek, S, Nessi, Marzio, Onofre, A, Orteu, S, Padilla, C, Pallin, D, Pantea, D, Patriarca, J, Pereira, A, Perlas, J A, Pilcher, J E, Pinhão, J, Poggioli, Luc, Poirot, S, Price, L, Protopopov, Yu, Proudfoot, J, Pukhov, O, Reinmuth, G, Renzoni, G, Richards, R, Riu, I, Romanov, V, Ronceux, B, Rumyantsev, V, Rusakovitch, N A, Sanders, H, Santos, J, Sawyer, L, Says, L P, Seixas, J M, Selldén, B, Semenov, A A, Senchyshyn, V G, Shchelchkov, A S, Shevtsov, V P, Shochet, M J, Sidorov, V, Simaitis, V J, Sissakian, A N, Solodkov, A A, Sonderegger, P, Soustruznik, K, Stanek, R, Starchenko, E A, Stephens, R, Studenov, S, Suk, M, Surkov, A, Tang, F, Tardell, S, Tas, P, Teubert, F, Thaler, J J, Tokár, S, Topilin, N D, Trka, Z, Turcot, A S, Turcotte, M, Valkár, S, Varanda, M J, Vartapetian, A H, Vazeille, F, Vinogradov, V, Vorozhtsov, S B, Wagner, D, White, Alan R, Wolters, H, Yamdagni, N, Yarygin, G, Yosef, C, Zaitsev, A, Zdrazil, M
    Publicado 1996
    “…A study of high energy muons traversing the ATLAS hadron Tile calorimeter in the barrel region in the energy range between 10 and 300~GeV is presented. Both test beam experimental data and Monte Carlo simulations are given and show good agreement. …”
    Enlace del recurso
    Enlace del recurso
    Response of the ATLAS tile calorimeter prototype to muons
  19. 20919
    por Alcaraz, J, Alvisi, D, Alpat, B, Ambrosi, G, Anderhub, H, Ao, L, Arefev, A, Azzarello, P, Babucci, E, Baldini, L, Basile, M, Barancourt, D, Barão, F, Barbier, G, Barreira, G, Battiston, R, Becker, R, Becker, U, Bellagamba, L, Béné, P, Berdugo, J, Berges, P, Bertucci, B, Biland, A, Bizzaglia, S, Blasko, S, Bölla, G, Boschini, M, Bourquin, Maurice, Bruni, G, Buénerd, M, Burger, J D, Burger, W J, Cai, X D, Cavalletti, R, Camps, C, Cannarsa, P, Capell, M, Casadei, D, Casaus, J, Castellini, G, Chang, Y H, Chen, H F, Chen, H S, Chen, Z G, Chernoplekov, N A, Chiarini, A, Tzi Hong Chiueh, Chuang, Y L, Cindolo, F, Commichau, V, Contin, A, Cotta-Ramusino, A, Crespo, P, Cristinziani, M, Da Cunha, J P, Dai, T S, Deus, J D, Dinu, N, Djambazov, L, D'Antone, I, Dong, Z R, Emonet, P, Engelberg, J, Eppling, F J, Eronen, T, Esposito, G, Extermann, Pierre, Favier, Jean, Feng, C C, Fiandrini, E, Finelli, F, Fisher, P H, Flaminio, R, Flügge, G, Fouque, N, Galaktionov, Yu, Gervasi, M, Giusti, P, Grandi, D, Gu, W Q, Hangarter, K, Hasan, A, Hermel, V, Hofer, H, Huang, M A, Hungerford, W, Ionica, M, Ionica, R, Jongmanns, M, Karlamaa, K, Karpinski, W, Kenney, G, Kenny, J, Kim, W, Klimentov, A, Kossakowski, R, Koutsenko, V F, Laborie, G, Laitinen, T, Lamanna, G, Laurenti, G, Lebedev, A, Lee, S C, Levi, G, Levchenko, P M, Liu, C L, Liu Hong Tao, Lolli, M, Lopes, I, Lu, G, Lü, Y S, Lübelsmeyer, K, Luckey, D, Lustermann, W, Maña, C, Margotti, A, Massera, F, Mayet, F, McNeil, R R, Meillon, B, Menichelli, M, Mezzanotte, F, Mezzenga, R, Mihul, A, Molinari, G, Mourão, A M, Mujunen, A, Palmonari, F, Pancaldi, G, Papi, A, Park, I H, Pauluzzi, M, Pauss, Felicitas, Perrin, E, Pesci, A, Pevsner, A, Pilastrini, R, Pimenta, M, Plyaskin, V, Pozhidaev, V, Postema, H, Postolache, V, Prati, E, Produit, N, Rancoita, P G, Rapin, D, Raupach, F, Recupero, S, Ren, D, Ren, Z, Ribordy, M, Richeux, J P, Riihonen, E, Ritakari, J, Röser, U, Roissin, C, Sagdeev, R, Santos, D, Sartorelli, G, Schultz von Dratzig, A, Schwering, G, Seo, E S, Shoutko, V, Shoumilov, E, Siedling, R, Son, D, Song, T, Steuer, M, Sun, G S, Suter, H, Tang, X W, Ting, Samuel C C, Ting, S M, Tornikoski, M, Torromeo, G, Torsti, J, Trümper, J E, Ulbricht, J, Urpo, S, Usoskin, I, Valtonen, E, Van den Hirtz, J, Velcea, F, Velikhov, E P, Verlaat, B, Vetlitskii, I, Vezzu, F, Vialle, J P, Viertel, Gert M, Vitè, Davide F, Von Gunten, H P, Waldmeier-Wicki, S, Wallraff, W, Wang, B C, Wang, J Z, Wang, Y H, Wiik, K, Williams, C, Wu, S X, Xia, P C, Yan, J L, Yan Lu Guang, Yang, C G, Yang, M, Ye Shu Wei, Yeh, P, Xu, Z Z, Zhang, H Y, Zhang, Z P, Zhao, D X, Zhu, G Y, Zhu, W Z, Zhuang, H L, Zichichi, A
    Publicado 2000
    “…The proton spectrum in the kinetic energy range 0.1 to 200 GeV was measuredby the Alpha Magnetic Spectrometer (AMS) during space shuttle flight STS-91 atan altitude of 380 km. …”
    Enlace del recurso
    Enlace del recurso
    Protons in near earth orbit
  20. 20920
    por Fouz-Iglesias, M C
    Publicado 1997
    “…We have construct several prototype calorimeters that was exposed to muon, electron and pion beams with energy range from 35 to 375 GeV. The prototypes was tested using different high voltages and two gases: pure CO2 and a mixture of CF4/CO2 (80/20). …”
    Enlace del recurso
    PPC's (parallel plate chambers) y su aplicación en calorimetría a bajo angulo en experimentos en el LHC
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