Author:
Arratia Miguel,Garabito Ruiz Luis,Huang Jiajun,Paul Sebouh J.,Preins Sean,Rodriguez Miguel
Abstract
Abstract
We recently proposed a high-granularity calorimeter insert
for the Electron-Ion Collider (EIC) that is based on plastic
scintillator tiles readout with silicon photomultipliers. In this
work, we concretize its design by characterizing its building blocks
with measurements of light yield, optical crosstalk, and timing
resolutions using cosmic-rays, an LED, and a beta source. We also
compared two approaches for the optical isolation of cells:
“megatiles” with grooved boundaries between cells, and a
3D-printed plastic frame hosting individual cells. We found that the
latter suppresses optical crosstalk to negligible levels while
providing an easier assembly method. Overall, these performance
studies can help inform calorimeter design and realistic simulations
of 5D showers (time, energy, position) for the EIC and other
experiments.
Subject
Mathematical Physics,Instrumentation
Cited by
3 articles.
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1. A few-degree calorimeter for the future electron-ion collider;Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment;2024-06
2. Leveraging staggered tessellation for enhanced spatial resolution in high-granularity calorimeters;Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment;2024-03
3. Beam Test of the First Prototype of SiPM-on-Tile Calorimeter Insert for the EIC Using 4 GeV Positrons at Jefferson Laboratory;Instruments;2023-11-17