In situ cryogenic electro-optical and radiation hardness characterization of a T2SL MWIR sensor for space imaging

Dazzazi, Imane; Ivory, James M.; Prest, Martin; Stefanov, Konstantin D.; Patel, Manish R.; Douglas, Jordan and Hall, David J. (2024). In situ cryogenic electro-optical and radiation hardness characterization of a T2SL MWIR sensor for space imaging. In: Proc. SPIE 13103, X-Ray, Optical, and Infrared Detectors for Astronomy XI, SPIE, 1310305.

DOI: https://doi.org/10.1117/12.3018913

Abstract

A Medium Wave Infrared (MWIR) image sensor developed by Teledyne e2v UK is studied for potential use in the International Mars Ice Mapper mission (I-MIM). Featuring a 640×512 array with a 15μm pixel pitch and a cutoff wavelength of 5μm, the sensor employs Ga-free InAsSb/InAs Type 2 Super Lattice (T2SL) and bariode (XBn) technologies. The study focuses on characterizing the sensor’s quantum efficiency (QE), dark current (DC), and radiation hardness under cryogenic conditions down to 130K. A system allowing in situ measurements pre- and post-irradiation was developed. The first QE measurements were conducted before and after irradiation with a 10MeV proton (p+) equivalent end-of-life fluence of 5×109 p+cm−2 and a double end-of-life fluence of 1×1010 p+cm−2 into the absorber layer, while the device was kept cryogenically cooled.

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