In-orbit Radiation Damage Characterization of SiPMs in the GRID-02 CubeSat Detector

Abstract

Recently, silicon photomultipliers (SiPMs) have been used in several space-borne missions, owing to their solid state, compact size, low operating voltage, and insensitivity to magnetic fields. However, operating SiPMs in space results in radiation damage and degraded performance. In-orbit quantitative studies on these effects are limited. In this study, we present in-orbit SiPM characterization results obtained by the second detector of the Gamma-Ray Integrated Detectors (GRID-02), which was launched on 6 November 2020. An increase in dark current of 100 μA/year per SiPM chip (model MicroFJ-60035-TSV) at 28.5 V and 5 C was observed. Consequently, the overall noise level (sigma) of the GRID-02 detector increased by 7.5 keV/year. The estimate of this increase is 40 μA/year per SiPM chip at -20 C, highlighting the positive effect of using a cooling system.

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