Further evaluation of a THGEM UV-photon detector for RICH - comparison with MWPC

The operation of single-, double- and triple-THGEM UV-detectors with reflective CsI photocathodes (CsI-THGEM) in Ne/CH4 and Ne/CF4 mixtures was investigated in view of their potential applications in RICH. The studies were carried out with UV, x-rays and {\beta}-electrons and focused on the maximum...

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Autores principales: Peskov, V., Cortesi, M., Chechik, R., Breskin, A.
Lenguaje:eng
Publicado: 2010
Materias:
Detectors and Experimental Techniques
Acceso en línea:https://dx.doi.org/10.1088/1748-0221/5/11/P11004
http://cds.cern.ch/record/1282730
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author Peskov, V.
Cortesi, M.
Chechik, R.
Breskin, A.
author_facet Peskov, V.
Cortesi, M.
Chechik, R.
Breskin, A.
author_sort Peskov, V.
collection CERN
description The operation of single-, double- and triple-THGEM UV-detectors with reflective CsI photocathodes (CsI-THGEM) in Ne/CH4 and Ne/CF4 mixtures was investigated in view of their potential applications in RICH. The studies were carried out with UV, x-rays and {\beta}-electrons and focused on the maximum achievable gain, discharge probability, cathode excitation effects and long-term gain stability. Comparative studies under similar conditions were made in CH4, CF4 and Ne/CF4, with a MWPC coupled to a reflective CsI photocathode (CsI-MWPC). It was found that at counting rates <= 10 Hz/mm^2 the maximum achievable gain of CsI-THGEMs is determined by the Raether limit; at counting rates > 10 Hz/mm^2 it dropped with rate. In all cases investigated the attainable CsI-THGEM gain was significantly higher than that of the CsI-MWPC, under similar conditions. Furthermore, the CsI-THGEM UV-detector suffered fewer cathode-excitation induced effects as compared to CsI-MWPC and had better stability at high counting rates.
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institution Organización Europea para la Investigación Nuclear
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publishDate 2010
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spelling cern-12827302019-09-30T06:29:59Zdoi:10.1088/1748-0221/5/11/P11004http://cds.cern.ch/record/1282730engPeskov, V.Cortesi, M.Chechik, R.Breskin, A.Further evaluation of a THGEM UV-photon detector for RICH - comparison with MWPCDetectors and Experimental TechniquesThe operation of single-, double- and triple-THGEM UV-detectors with reflective CsI photocathodes (CsI-THGEM) in Ne/CH4 and Ne/CF4 mixtures was investigated in view of their potential applications in RICH. The studies were carried out with UV, x-rays and {\beta}-electrons and focused on the maximum achievable gain, discharge probability, cathode excitation effects and long-term gain stability. Comparative studies under similar conditions were made in CH4, CF4 and Ne/CF4, with a MWPC coupled to a reflective CsI photocathode (CsI-MWPC). It was found that at counting rates <= 10 Hz/mm^2 the maximum achievable gain of CsI-THGEMs is determined by the Raether limit; at counting rates > 10 Hz/mm^2 it dropped with rate. In all cases investigated the attainable CsI-THGEM gain was significantly higher than that of the CsI-MWPC, under similar conditions. Furthermore, the CsI-THGEM UV-detector suffered fewer cathode-excitation induced effects as compared to CsI-MWPC and had better stability at high counting rates.The operation of single-, double- and triple-THGEM UV-detectors with reflective CsI photocathodes (CsI-THGEM) in Ne/CH4 and Ne/CF4 mixtures was investigated in view of their potential applications in RICH. The studies were carried out with UV, x-rays and {\beta}-electrons and focused on the maximum achievable gain, discharge probability, cathode excitation effects and long-term gain stability. Comparative studies under similar conditions were made in CH4, CF4 and Ne/CF4, with a MWPC coupled to a reflective CsI photocathode (CsI-MWPC). It was found that at counting rates <= 10 Hz/mm^2 the maximum achievable gain of CsI-THGEMs is determined by the Raether limit/ at counting rates > 10 Hz/mm^2 it dropped with rate. In all cases investigated the attainable CsI-THGEM gain was significantly higher than that of the CsI-MWPC, under similar conditions. Furthermore, the CsI-THGEM UV-detector suffered fewer cathode-excitation induced effects as compared to CsI-MWPC and had better stability at high counting rates.arXiv:1008.0151oai:cds.cern.ch:12827302010-08-03
spellingShingle Detectors and Experimental Techniques
Peskov, V.
Cortesi, M.
Chechik, R.
Breskin, A.
Further evaluation of a THGEM UV-photon detector for RICH - comparison with MWPC
title Further evaluation of a THGEM UV-photon detector for RICH - comparison with MWPC
title_full Further evaluation of a THGEM UV-photon detector for RICH - comparison with MWPC
title_fullStr Further evaluation of a THGEM UV-photon detector for RICH - comparison with MWPC
title_full_unstemmed Further evaluation of a THGEM UV-photon detector for RICH - comparison with MWPC
title_short Further evaluation of a THGEM UV-photon detector for RICH - comparison with MWPC
title_sort further evaluation of a thgem uv-photon detector for rich - comparison with mwpc
topic Detectors and Experimental Techniques
url https://dx.doi.org/10.1088/1748-0221/5/11/P11004
http://cds.cern.ch/record/1282730
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AT cortesim furtherevaluationofathgemuvphotondetectorforrichcomparisonwithmwpc
AT chechikr furtherevaluationofathgemuvphotondetectorforrichcomparisonwithmwpc
AT breskina furtherevaluationofathgemuvphotondetectorforrichcomparisonwithmwpc

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