Recent progress in CERN RD39: radiation hard cryogenic silicon detectors for applications in LHC experiments and their future upgrades

Tuominen, E.; Anbinderis, P.; Anbinderis, T.; Bates, R.; de Boer, W.; Borchi, Emilio; Bruzzi, Mara; Buttar, C.; Chen, W.; Cindro, V.; Czellar, S.; Dierlamm, A.; Eremin, V.; Gaubas, E.; Harkonen, J.; Heijne, E.; Ilyashenko, I.; Kalesinskas, V.; Kortelainen, M. J.; Lampen, T.; Li, Z.; Luukka, P.; Mandic, I.; Menichelli, David; Mikuz, M.; Militaru, O.; Mueller, S.; Maenpaa, T.; Niinikoski, T. O.; O'Shea, V.; Parkes, C.; Piotrzkowski, K.; Pirollo, S.; Pusa, P.; Raisanen, J.; Tuovinen, E.; Vaitkus, J.; Verbitskaya, E.; Vayrynen, S.; Zavrtanik, M.

doi:10.1109/TNS.2009.2013950

CERN RD39 Collaboration develops radiation-hard cryogenic silicon detectors. Recently, we have demonstrated improved radiation hardness in novel Current Injected Detectors (CID). For detector characterization, we have applied cryogenic Transient Current Technique (C-TCT). In beam tests, heavily irradiated CID detector showed capability for particle detection. Our results show that the CID detectors are operational at the temperature -50°C after the fluence of 1 × 1016 1 MeV neutron equivalent/cm2.

Recent progress in CERN RD39: radiation hard cryogenic silicon detectors for applications in LHC experiments and their future upgrades / E.Tuominen; P. Anbinderis; T. Anbinderis; R. Bates; W. de Boer; E. Borchi; M. Bruzzi; C. Buttar; W. Chen; V. Cindro; S. Czellar; A. Dierlamm; V. Eremin; E. Gaubas; J. Harkonen; E. Heijne; I. Ilyashenko; V. Kalesinskas; M.J. Kortelainen; T. Lampen; Z. Li; P.Luukka; I. Mandic; D. Menichelli; M. Mikuz; O. Militaru; S. Mueller; T. Maenpaa; T.O. Niinikoski; V. O'Shea; C. Parkes; K. Piotrzkowski; S. Pirollo; P. Pusa; J. Raisanen; E. Tuovinen; J. Vaitkus; E. Verbitskaya; S. Vayrynen; M. Zavrtanik. - In: IEEE TRANSACTIONS ON NUCLEAR SCIENCE. - ISSN 0018-9499. - STAMPA. - 56(2009), pp. 2119-2123. [10.1109/TNS.2009.2013950]

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Titolo:	Recent progress in CERN RD39: radiation hard cryogenic silicon detectors for applications in LHC experiments and their future upgrades
Autori di Ateneo:	E. Tuominen P. Anbinderis T. Anbinderis R. Bates W. de Boer BORCHI, EMILIO BRUZZI, MARA C. Buttar W. Chen V. Cindro S. Czellar A. Dierlamm V. Eremin E. Gaubas J. Harkonen E. Heijne I. Ilyashenko V. Kalesinskas M. J. Kortelainen T. Lampen Z. Li P. Luukka I. Mandic MENICHELLI, DAVID M. Mikuz O. Militaru S. Mueller T. Maenpaa T. O. Niinikoski V. O'Shea C. Parkes K. Piotrzkowski S. Pirollo P. Pusa J. Raisanen E. Tuovinen J. Vaitkus E. Verbitskaya S. Vayrynen M. Zavrtanik mostra contributor esterni nascondi contributor esterni
Autori:	E. Tuominen; P. Anbinderis; T. Anbinderis; R. Bates; W. de Boer; BORCHI, EMILIO; BRUZZI, MARA; C. Buttar; W. Chen; V. Cindro; S. Czellar; A. Dierlamm; V. Eremin; E. Gaubas; J. Harkonen; E. Heijne; I. Ilyashenko; V. Kalesinskas; M. J. Kortelainen; T. Lampen; Z. Li; P. Luukka; I. Mandic; MENICHELLI, DAVID; M. Mikuz; O. Militaru; S. Mueller; T. Maenpaa; T. O. Niinikoski; V. O'Shea; C. Parkes; K. Piotrzkowski; S. Pirollo; P. Pusa; J. Raisanen; E. Tuovinen; J. Vaitkus; E. Verbitskaya; S. Vayrynen; M. Zavrtanik
Data di pubblicazione:	2009
Rivista:	IEEE TRANSACTIONS ON NUCLEAR SCIENCE
Volume:	56
Pagina iniziale:	2119
Pagina finale:	2123
Abstract:	CERN RD39 Collaboration develops radiation-hard cryogenic silicon detectors. Recently, we have demonstrated improved radiation hardness in novel Current Injected Detectors (CID). For detector characterization, we have applied cryogenic Transient Current Technique (C-TCT). In beam tests, heavily irradiated CID detector showed capability for particle detection. Our results show that the CID detectors are operational at the temperature -50°C after the fluence of 1 × 1016 1 MeV neutron equivalent/cm2.
Handle:	http://hdl.handle.net/2158/373634
Appare nelle tipologie:	1a - Articolo su rivista

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