Instruments (Feb 2022)

The Development of SiPM-Based Fast Time-of-Flight Detector for the AMS-100 Experiment in Space

  • Chanhoon Chung,
  • Theresa Backes,
  • Clemens Dittmar,
  • Waclaw Karpinski,
  • Thomas Kirn,
  • Daniel Louis,
  • Georg Schwering,
  • Michael Wlochal,
  • Stefan Schael

DOI
https://doi.org/10.3390/instruments6010014
Journal volume & issue
Vol. 6, no. 1
p. 14

Abstract

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AMS-100 is the next-generation high-energy cosmic-ray experiment in Space. It is designed as a magnetic spectrometer with a geometrical acceptance of 100 m2 · sr to be operated for ten years at the Sun–Earth Lagrange Point 2. Its Time-of-Flight (TOF) detector is a crucial sub-detector for the main trigger and the particle identification constructed from individual scintillation counters. A fast time measurement with a resolution of 20 ps for a single counter is required to cover wide energy ranges for particle identification. A prototype counter has been designed based on a fast plastic scintillator tile readout by two silicon photomultipliers (SiPMs). An amplifier board was built to merge 16 SiPM channels into four readout channels in a hybrid connection. The signals are read out by a fast waveform digitizer. The timing performance was studied with electrons from a 90Sr source. A time resolution of 40 ps for a single counter has been achieved. Various operational and environmental conditions have been studied.

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