Mass testing of SiPMs for the CMVD at IICHEP

Mass testing of SiPMs for the CMVD at IICHEP

A Cosmic Muon Veto Detector (CMVD) is being built around the mini-Iron Calorimeter (mini-ICAL) detector at the transit campus of the India based Neutrino Observatory, Madurai. The CMV detector will be made using extruded plastic scintillators with embedded wavelength shifting (WLS) fibres which prop...

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Veröffentlicht in:arXiv.org 2022-10
Hauptverfasser: Jangra, Mamta, Bhupen, Raj, Majumder, Gobinda, Gothe, Kiran, Saraf, Mandar, Parmar, Nandkishor, Satyanarayana, B, Shinde, R R, Rao, Shobha K, Upadhya, Suresh S, Datar, Vivek M, Glenzinski, Douglas A, Bross, Alan, Pla-Dalmau, Anna, Zutshi, Vishnu V, Group, Robert Craig, Dukes, E Craig
Format: Artikel
Sprache:eng
Schlagworte:
Extrusion
Muons
Neutrinos
Noise measurement
Photons
Scintillation counters
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Zusammenfassung:A Cosmic Muon Veto Detector (CMVD) is being built around the mini-Iron Calorimeter (mini-ICAL) detector at the transit campus of the India based Neutrino Observatory, Madurai. The CMV detector will be made using extruded plastic scintillators with embedded wavelength shifting (WLS) fibres which propagate re-emitted photons of longer wavelengths to silicon photo-multipliers (SiPMs). The SiPMs detect these scintillation photons, producing electronic signals. The design goal for the cosmic muon veto efficiency of the CMV is \(>\)99.99\% and fake veto rate less than 10\(^{-5}\). A testing system was developed, using an LED driver, to measure the noise rate and gain of each SiPM, and thus determine its overvoltage (\(V_{ov}\)). This paper describes the test results and the analysed characteristics of about 3.5k SiPMs.
ISSN:2331-8422