Optimization of GEM-based detector readout electrode structure for SXR imaging of tokamak plasma
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JINST_070P_0921.pdf (1.04 MB)
Date
2021-11
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Publisher
IOP Publishing Ltd for Sissa Medialab
Abstract
The paper presents an optimization of a readout structure of the GEM-based detector designed for X-ray imaging for DTT tokamak in the energy range of 2–15 keV. The readout electrode of approximately 100 cm2 surface is composed of hexagonal pixels connected in a way that allows reducing the actual number of signal pixels (electronics channels). At the same time, based on time coincidence analysis, it makes possible to unambiguously identify the position of the recorded X-ray photon. For the input spectrum, the Detective Quantum Efficiency (DQE) of the detector was calculated using the Geant4 program and the spatial distributions of electron avalanches at the readout electrode were simulated using the Garfield++ program. These were conducted for a given energy range of radiation and a statistical distribution consistent with the shape of the spectrum considering the DQE of the detector. As a result, the size of a single hexagonal pixel was proposed to capture the position of the recorded radiation quanta in an optimal and effective way.
Description
The Version of Record is available online at DOI: 10.1088/1748-0221/16/11/C11014
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Citation
K. Malinowski et al 2021 JINST 16 C11014