J. C. Liu scite author profile

Liquid argon is used as target material in several current and planned experiments related to dark matter direct searching and neutrino detecting. Argon provides excellent pulse shape discrimination capability which could separate the electron recoil background events from the expected nuclear recoil signals. A classical solution of pulse shape discrimination is called prompt fraction method, which calculates the fraction of the scintillation signal in a narraw and a wide time window around the pulse peak. This essay firstly compared the pulse shape discrimination capability of liquid argon detector when PMTs or SiPM arrays are used as photosensors respectively by simulating the liquid argon scintillation processes of electron recoils and nuclear recoils using real single photoelectron data of a PMT and a SiPM array.

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J. C. Liu

Developing a single-phase liquid argon detector with SiPM readout

The estimation of n/$γ$ pulse shape discrimination capability of liquid argon scintillator with SiPM arrays contrast to PMTs

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