http://arxiv.org/abs/2101.02665
This paper details preliminary photon measurements with the monolithic silicon detector ATLASPix, a pixeldetector built and optimized for the CERN experiment ATLAS. The goal of this paper is to determine thepromise of pixelated silicon in future space-based gamma-ray experiments. With this goal in mind, radioactivephoton sources were used to determine the energy resolution and detector response of ATLASPix; these are novelmeasurements for ATLASPix, a detector built for a ground-based particle accelerator. As part of this project anew iteration of monolithic Si pixels, named AstroPix, have been created based on ATLASPix, and the eventualgoal is to further optimize AstroPix for gamma-ray detection by constructing a prototype Compton telescope.The energy resolution of both the digital and analog output of ATLASPix is the focus of this paper, as it is acritical metric for Compton telescopes. It was found that with the analog output of the detector, the energyresolution of a single pixel was 7.69 +/- 0.13% at 5.89 keV and 7.27 +/- 1.18% at 30.1 keV, which exceeds theconservative baseline requirements of 10% resolution at 60 keV and is an encouraging start to an optimistic goalof<2% resolution at 60 keV. The digital output of the entire detector consistently yielded energy resolutionsthat exceeded 100% for different sources. The analog output of the monolithic silicon pixels indicates that thisis a promising technology for future gamma-ray missions, while the analysis of the digital output points to theneed for a redesign of future photon-sensitive monolithic silicon pixel detectors.
I. Brewer, R. Caputo, M. Negro, et. al.
Fri, 8 Jan 21
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Comments: 12 pages, proceedings, International Society for Optics and Photonics (SPIE) Astronomical Telescopes and Instrumentation Digital Forum, Dec. 14-18 2020