This paper describes the Silicon microstrip Tracker of the CMS experiment at LHC. It consists of a barrel part with 5 layers and two endcaps with 10 disks each. About 10000 single-sided equivalent modules have to be built, each one carrying two daisy-chained silicon detectors and their front-end electronics. Back-to-back modules are used to read-out the radial coordinate. The tracker will be operated in an environment kept at a temperature of T = -10 degreesC to minimize the Si sensors radiation damage. Heavily irradiated detectors will be safely operated due to the high-voltage capability of the sensors. Full-size mechanical prototypes have been built to check the system aspects before starting the construction. (C) 2000 Published by Elsevier Science B.V. All rights reserved.

The CMS silicon tracker / Focardi, E; Albergo, S; Angarano, M; Azzi, P; Babucci, E; Bacchetta, N; Bader, A; Bagliesi, G; Basti, A; Biggeri, U; Bilei, Gm; Bisello, D; Boemi, D; Bosi, F; Borrello, L; Bozzi, C; Braibant, S; Breuker, H; Bruzzi, M; Buffini, A; Busoni, S; Candelori, A; Caner, A; Castaldi, R; Castro, A; Catacchini, E; Checcucci, B; Ciampolini, P; Civinini, C; Creanza, Donato Maria; D'Alessandro, R; Da Rold, M; Demaria, N; de Palma, M; Dell'Orso, R; Della Marina, R; Dutta, S; Eklund, C; Feld, L; Fiore, L; French, M; Freudenreich, K; Frey, A; Furtjes, A; Giassi, A; Giorgi, M; Giraldo, A; Glessing, B; Gu, Wh; Hall, G; Hammarstrom, R; Hebbeker, T; Honma, A; Hrubec, J; Huhtinen, M; Kaminsky, A; Karimaki, V; Koenig, S; Krammer, M; Lariccia, P; Lenzi, M; Loreti, M; Leubelsmeyer, K; Lustermann, W; Mattig, P; Maggi, Giorgio Pietro; Mannelli, M; Mantovani, G; Marchioro, A; Mariotti, C; Martignon, G; Mcevoy, B; Meschini, M; Messineo, A; Migliore, E; My, S; Paccagnella, A; Palla, F; Pandoulas, D; Papi, A; Parrini, G; Passeri, D; Pieri, M; Piperov, S; Potenza, R; Radicci, V; Raffaelli, F; Raymond, M; Rizzo, F; Santocchia, A; Schmitt, B; Selvaggi, G; Servoli, L; Sguazzoni, G; Siedling, R; Silvestris, L; Starodumov, A; Stavitski, I; Stefanini, G; Surrow, B; Tempesta, P; Tonelli, G; Tricomi, A; Tuuva, T; Vannini, C; Verdini, Pg; Viertel, G; Xie, Z; Li, Yh; Watts, S; Wittmer, B.. - In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. SECTION A, ACCELERATORS, SPECTROMETERS, DETECTORS AND ASSOCIATED EQUIPMENT. - ISSN 0168-9002. - STAMPA. - 453:1-2(2000), pp. 121-125. [10.1016/S0168-9002(00)00616-1]

The CMS silicon tracker

CREANZA, Donato Maria;MAGGI, Giorgio Pietro;
2000-01-01

Abstract

This paper describes the Silicon microstrip Tracker of the CMS experiment at LHC. It consists of a barrel part with 5 layers and two endcaps with 10 disks each. About 10000 single-sided equivalent modules have to be built, each one carrying two daisy-chained silicon detectors and their front-end electronics. Back-to-back modules are used to read-out the radial coordinate. The tracker will be operated in an environment kept at a temperature of T = -10 degreesC to minimize the Si sensors radiation damage. Heavily irradiated detectors will be safely operated due to the high-voltage capability of the sensors. Full-size mechanical prototypes have been built to check the system aspects before starting the construction. (C) 2000 Published by Elsevier Science B.V. All rights reserved.
2000
The CMS silicon tracker / Focardi, E; Albergo, S; Angarano, M; Azzi, P; Babucci, E; Bacchetta, N; Bader, A; Bagliesi, G; Basti, A; Biggeri, U; Bilei, Gm; Bisello, D; Boemi, D; Bosi, F; Borrello, L; Bozzi, C; Braibant, S; Breuker, H; Bruzzi, M; Buffini, A; Busoni, S; Candelori, A; Caner, A; Castaldi, R; Castro, A; Catacchini, E; Checcucci, B; Ciampolini, P; Civinini, C; Creanza, Donato Maria; D'Alessandro, R; Da Rold, M; Demaria, N; de Palma, M; Dell'Orso, R; Della Marina, R; Dutta, S; Eklund, C; Feld, L; Fiore, L; French, M; Freudenreich, K; Frey, A; Furtjes, A; Giassi, A; Giorgi, M; Giraldo, A; Glessing, B; Gu, Wh; Hall, G; Hammarstrom, R; Hebbeker, T; Honma, A; Hrubec, J; Huhtinen, M; Kaminsky, A; Karimaki, V; Koenig, S; Krammer, M; Lariccia, P; Lenzi, M; Loreti, M; Leubelsmeyer, K; Lustermann, W; Mattig, P; Maggi, Giorgio Pietro; Mannelli, M; Mantovani, G; Marchioro, A; Mariotti, C; Martignon, G; Mcevoy, B; Meschini, M; Messineo, A; Migliore, E; My, S; Paccagnella, A; Palla, F; Pandoulas, D; Papi, A; Parrini, G; Passeri, D; Pieri, M; Piperov, S; Potenza, R; Radicci, V; Raffaelli, F; Raymond, M; Rizzo, F; Santocchia, A; Schmitt, B; Selvaggi, G; Servoli, L; Sguazzoni, G; Siedling, R; Silvestris, L; Starodumov, A; Stavitski, I; Stefanini, G; Surrow, B; Tempesta, P; Tonelli, G; Tricomi, A; Tuuva, T; Vannini, C; Verdini, Pg; Viertel, G; Xie, Z; Li, Yh; Watts, S; Wittmer, B.. - In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. SECTION A, ACCELERATORS, SPECTROMETERS, DETECTORS AND ASSOCIATED EQUIPMENT. - ISSN 0168-9002. - STAMPA. - 453:1-2(2000), pp. 121-125. [10.1016/S0168-9002(00)00616-1]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11589/599
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