Fabrication of high-operating temperature (HOT), visible to MWIR, nCBn photon-trap detector arrays

Hasan Sharifi; Mark Roebuck; Terry De Lyon; Hung Nguyen; Margaret Cline; David Chang; Daniel Yap; Sarabjit Mehta; Rajesh Rajavel; Adrian Ionescu; Arvind D'Souza; Ernest Robinson; Daniel Okerlund; Nibir Dhar

doi:10.1117/12.2015083

18 June 2013 Fabrication of high-operating temperature (HOT), visible to MWIR, nCBn photon-trap detector arrays

Hasan Sharifi, Mark Roebuck, Terry De Lyon, Hung Nguyen, Margaret Cline, David Chang, Daniel Yap, Sarabjit Mehta, Rajesh Rajavel, Adrian Ionescu, Arvind D'Souza, Ernest Robinson, Daniel Okerlund, Nibir Dhar

Author Affiliations +

Proceedings Volume 8704, Infrared Technology and Applications XXXIX; 87041U (2013) https://doi.org/10.1117/12.2015083
Event: SPIE Defense, Security, and Sensing, 2013, Baltimore, Maryland, United States

Abstract

We describe our recent efforts in developing visible to mid-wave (0.5 µm to 5.0 µm) broadband photon-trap InAsSb-based infrared detectors grown on GaAs substrates operating at high temperature (150-200K) with low dark current and high quantum efficiency. Utilizing an InAsSb absorber on GaAs substrates instead of an HgCdTe absorber will enable low-cost fabrication of large-format, high operating temperature focal plane arrays. We have utilized a novel detector design based-on pyramidal photon trapping InAsSb structures in conjunction with compound barrier-based device architecture to suppress both G-R dark current, as well as diffusion current through absorber volume reduction. Our optical simulation show that our engineered pyramid structures minimize the surface reflection compared to conventional diode structures acting as a broadband anti-reflective coating (AR). In addition, it exhibits > 70-80% absorption over the entire 0.5 µm to 5.0 µm spectral range while providing up to 3× reduction in absorber volume. Lattice-mismatched InAs_0.82Sb_0.18 with 5.25 µm cutoff at 200K was grown on GaAs substrates. 128×128/60μm and 1024×1024/18μm detector arrays that consist of bulk absorber as well as photon-trap pyramid structures were fabricated to compare the detector performance. The measured dark current density for the diodes with the pyramidal absorber was 3× lower that for the conventional diode with the bulk absorber, which is consistent with the volume reduction due to the creation of the pyramidal absorber topology. We have achieved high D* (< 1.0 x 10¹⁰ cm √Hz/W) and maintain very high (< 80 %) internal quantum efficiency over the entire band 0.5 to 5 µm spectral band at 200K.

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Hasan Sharifi, Mark Roebuck, Terry De Lyon, Hung Nguyen, Margaret Cline, David Chang, Daniel Yap, Sarabjit Mehta, Rajesh Rajavel, Adrian Ionescu, Arvind D'Souza, Ernest Robinson, Daniel Okerlund, and Nibir Dhar "Fabrication of high-operating temperature (HOT), visible to MWIR, nCBn photon-trap detector arrays", Proc. SPIE 8704, Infrared Technology and Applications XXXIX, 87041U (18 June 2013); https://doi.org/10.1117/12.2015083

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