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particle physics instrumentation

A prototype for SANDD: A highly-segmented pulse-shape-sensitive plastic scintillator detector incorporating silicon photomultiplier arrays

arXiv:1903.11668 · doi:10.1016/j.nima.2019.162334

summary

The paper presents a prototype of the Segmented AntiNeutrino Directional Detector (SANDD) using an 8×8 array of pulse‑shape‑sensitive plastic scintillator rods read out by 64‑channel silicon photomultiplier arrays, demonstrating clear neutron‑gamma pulse‑shape discrimination.

Abstract

We report the first clear observation of neutron/gamma-ray pulse-shape sensitivity of a fully-instrumented 8 $\times$ 8 array of plastic scintillator segments coupled to two 5 cm $\times$ 5 cm 64-channel SiPM arrays as part of a study of the key metrics of a prototype antineutrino detector module designed for directional sensitivity. SANDD (a Segmented AntiNeutrino Directional Detector) will eventually comprise a central module of 64 elongated segments of $^{6}$Li-doped pulse-shape-sensitive scintillator rods, each with a square cross section of 5.4 mm $\times$ 5.4 mm, surrounded by larger cross section bars of the same material. The most important metrics with the potential to impact the performance of the central module of SANDD are neutron and gamma-ray pulse-shape sensitivity using silicon photomultipliers (SiPMs), particle identification via scintillator rod multiplicity, and energy and position resolution. As a first step, we constructed a prototype detector to investigate the performance of a central SANDD-like module using two 64-channel SiPM arrays and rods of undoped pulse-shape-sensitive plastic scintillator.

10 pages, 21 figures, revised version

Topics & keywords

#plastic scintillator#silicon photomultiplier#pulse shape discrimination#antineutrino detection#segmented detectorSANDD6Li-doped scintillatorSiPM arrayneutron/gamma discriminationrod multiplicityenergy resolution