Radiation effects in WFC3 IR detectors

Scott D Johnson,Cheryl J Marshall,Gregory Delo,Randy A Kimble,Edward S Cheng,Paul W Marshall,Terry Beck,Robert A Reed,Robert J Hill,Edward Wassell,David Schlossberg,Yiting Wen,Elizabeth J Polidan,Anne Marie Russell,Augustyn Waczynski,John Yagelowich,Thomas J Grycewicz,Craig R Mccreight

doi:10.1117/12.508443

Scott D Johnson, Cheryl J Marshall + Show 16 more

https://doi.org/10.1117/12.508443

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A Hubble Space Telescope (HST) Wide Field Camera 3 (WFC3) flight-like IR detector was tested for radiation hardness by exposing it to high energy protons while operating at the nominal flight temperature of 150 K. The detector is a 1.7 μm cutoff HgCdTe detector with a CdZnTe substrate. The device is hybridized to a silicon multiplexer. The detector response was tested for gradually increasing fluence from less than 1x103 to a total of 5x109 63 MeV protons/cm2. Dark current changes were evaluated after each step. An increase in dark current and new hot pixels were observed after large steps of irradiation. The increased dark current was observed to partially anneal at 190K and fully anneal at room temperature. Radiation effects, hot pixel distribution, and results of annealing at different temperatures are presented here.

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