Radiation damage on SiPMs for Space Applications

TL;DR

This study characterizes the radiation damage effects on various SiPM technologies exposed to proton fluences simulating space conditions, assessing their performance degradation and annealing behavior for space applications.

Contribution

It provides a detailed experimental analysis of SiPM radiation tolerance under space-like proton irradiation, including real-time measurements and annealing effects, which was not previously comprehensively studied.

Findings

SiPM performance degrades with increased proton fluence.

Annealing reduces some radiation-induced damage over 30 days.

Performance metrics remain acceptable for certain space mission parameters.

Abstract

Silicon Photo-multipliers (SiPMs) are very sensitive photo-detectors that experienced a big development in the last years in several applications, like LIDAR, astrophysics, medical imaging and high energy physics (HEP) experiments. In HEP experiments, in particular, they are often exposed to significant radiation doses. The main purpose of this manuscript is the characterization of several FBK SiPM technologies when exposed to 74 $MeV$ protons with a total fluence comparable to the one that they would experience in space along circular Low Earth Orbits (LEO), Polar, during a five years mission. In this work, we estimated the expected proton fluences along the selected orbit, by means of the SPENVIS software. Several fluence steps were chosen to consider dense fluence intervals and have a more accurate sight on the whole damage process. We estimated a maximum fluence achieved during the tests of $6.4 \times 10^{11}$ $n_{eq}/cm^2$. Based on such simulations, we irradiated several SiPM technologies. We developed a custom experimental setup, which was used to perform online reverse voltage-current, right after each irradiation step, to minimize the effect of the annealing on the measurement. The results are then displayed, in particular the currents, the noise and the Photon Detection Efficiency. Also a 30-days study on the annealing of the devices was performed. Lastly, the conclusions are drawn on the basis of the Signal-to-Noise Ratio (SNR), taking into account the standard parameters of famous satellites using similar orbits as the ones considered into this work.