A low-mass cryogenic cooling technique for silicon sensor modules has been developed in the framework of the RD39 Collaboration at CERN. A prototype low-mass beam tracker cryostat has been designed, constructed and tested for applications in fixed target experiments. We shall report here briefly the main features and results of the system.
Cryogenic technology for tracking detectors / V. Granata;C. da Viá;S. Watts;K. Borer;S. Janos;K. Pretzl;B. Dezillie;Z. Li;L. Casagrande;P. Collins;S. Grohmann;E. Heijne;C. Lourenço;T.O. Niinikoski;V.G. Palmieri;P. Sonderegger;E. Borchi;M. Bruzzi;S. Pirollo;S. Chapuy;Z. Dimcovski;E. Grigoriev;W. Bell;S.R.H. Devine;V. O’Shea;G. Ruggiero;K. Smith;P. Berglund;W. de Boer;F. Hauler;S. Heising;L. Jungermann;M. Abreu;P. Rato Mendes;P. Sousa;V. Cindro;M. Mikuz;M. Zavrtanik;A. Esposito;I. Konorov;S. Paul;S. Buontempo;N. D’Ambrosio;S. Pagano;V. Eremin;E. Verbitskaya. - In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. SECTION A, ACCELERATORS, SPECTROMETERS, DETECTORS AND ASSOCIATED EQUIPMENT. - ISSN 0168-9002. - STAMPA. - 461:(2001), pp. 197-199. [10.1016/S0168-9002(00)01205-5]
Cryogenic technology for tracking detectors
BORCHI, EMILIO;BRUZZI, MARA;
2001
Abstract
A low-mass cryogenic cooling technique for silicon sensor modules has been developed in the framework of the RD39 Collaboration at CERN. A prototype low-mass beam tracker cryostat has been designed, constructed and tested for applications in fixed target experiments. We shall report here briefly the main features and results of the system.File | Dimensione | Formato | |
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