Characterization of two SiPM arrays from Hamamatsu and Onsemi for liquid argon detector

Abstract: Silicon photomultiplier (SiPM), a new type of photosensor, is considered a substitute for traditional photomultiplier tube (PMT) in the next generation of dark matter and neutrino detectors, especially in noble gas detectors like liquid argon. However, the design of compact SiPM arrays and their cryogenic electronics that can work in liquid argon is barely developed. Thus, two candidate SiPM arrays from Hamamatsu and Onsemi were selected to verify the feasibility and effectiveness of the design. In this work, we successfully developed a cryogenic electronics read-out system that connects and works with 1-inch 4$\times$4 SiPM arrays at 87~K. The power dissipation of amplifiers is less than 10 $\mu$W/mm$^2$. Furthermore, multiply significant characteristics of both types of SiPM arrays were measured at liquid argon temperature, such as dark count rate (DCR), breakdown voltage (V${_{bd}}$), single photoelectron (SPE) performance, signal to noise ratio (SNR) and correlated signal probability.