The Path Toward 500μm Depletion of AstroPix, a Pixelated Silicon HVCMOS Sensor for Space and EIC

Amanda L. Steinhebel,Jennifer Ott, Olivia Kroger,Regina Caputo,Vitaliy Fadeyev, Anthony Affolder, Kirsten Affolder, Aware Deshmekh,Nicolas Striebig,Manoj Jadhav,Yusuke Suda, Yasushi Fuzakawa,Jessica Metcalfe,Richard Leys,Ivan Peric, Taylor K. W. Shin,Daniel P. Violette

SPACE TELESCOPES AND INSTRUMENTATION 2024 ULTRAVIOLET TO GAMMA RAY, PT 1（2024）

NASA

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Abstract

The precise reconstruction of Compton-scatter events is paramount for an imaging medium-energy gamma-ray telescope. The proposed AMEGO-X is enabled by a silicon tracker utilizing AstroPix chips - a pixelated silicon HVCMOS sensor novel for space use. To achieve science goals, each 500 x 500 mu m(2) pixel must be sensitive for energy deposits ranging from 25 - 700 keV with an energy resolution of 5 keV at 122 keV (< 10%). This is achieved through depletion of the 500 mu m thick sensor, although complete depletion poses an engineering and design challenge. This talk will summarize the current status of depletion measurements highlighting direct measurement with TCT laser scanning and the agreement with simulation. Future plans for further testing will also be identified.

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Key words

CMOS,silicon,gamma-ray instrumentation,depletion depth,edge TCT,pixelated silicon tracker,AstroPix,AMEGO-X

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