Development of a novel, windowless, amorphous selenium based photodetector for use in liquid noble detectors

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Abstract

Detection of the vacuum ultraviolet (VUV) scintillation light produced by liquid noble elements is a central challenge in order to fully exploit the available timing, topological, and calorimetric information in detectors leveraging these media. In this paper, we characterize a novel, windowless amorphous selenium based photodetector with direct sensitivity to VUV light. We present here the manufacturing and experimental setup used to operate this detector at low transport electric fields (2.7–5.2 V/μm) and across a wide range of temperatures (77 K–290 K). This work shows that the first proof-of-principle windowless amorphous selenium device is robust under cryogenic conditions, responsive to VUV light at cryogenic temperatures, and preserves argon purity. These findings motivate a continued exploration of amorphous selenium devices for simultaneous detection of scintillation light and ionization charge in noble element detectors.

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Author and article information

Journal

Title: Journal of Instrumentation

Abbreviated Title: J. Inst.

Publisher: IOP Publishing

ISSN (Electronic): 1748-0221

Publication date Created: January 25 2023

Publication date Created: January 01 2023

Publication date (Electronic): January 25 2023

Publication date (Print): January 01 2023

Volume: 18

Issue: 01

Page: P01029

Article

DOI: 10.1088/1748-0221/18/01/P01029

SO-VID: be177db3-6f54-47a3-86b0-27bcf0fbbe7a

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https://iopscience.iop.org/page/copyright

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