Exploring the optical property of InAs1−xSbx-based nBn structures for high-temperature mid-wave infrared detection

Author:

Huang Wenya1ORCID,Yang Shuai1ORCID,Hong Jin1ORCID,Xia Changsheng2ORCID,Yue Fangyu1ORCID

Affiliation:

1. Key Laboratory of Polar Materials and Devices (MOE), Department of Electronics, East China Normal University 1 , Shanghai 200241, China

2. GMPT Company Ltd. 2 , 8th Floor, Building 4, No. 26 Qiuyue Road, Pudong New Area, Shanghai 201120, China

Abstract

InAs0.9Sb0.1-based nBn structures for mid-wave infrared detection are designed and prepared by molecular beam epitaxy. The structural, electrical, and optical properties are characterized, based on which the density-functional theory calculation is carried out by combining with the hybrid HSE06 exchange-correlation function. The results demonstrate that (i) the calculated bandgap for InAs0.9Sb0.1 is well consistent with that of optical spectroscopies (∼266 meV, or a cutoff wavelength of ∼4.66 μm), suggesting the practical effectivity of the theoretical model; (ii) the valence band offset of the unbiased InAs0.9Sb0.1/AlAs0.1Sb0.9 nBn structure is determined as ∼105 meV, with ignorable influence on the hole transport of the devices by considering the rather low dark current when working at a high temperature of ∼150 K; and (iii) the conduction band offset of InAs0.9Sb0.1/GaSb is roughly ∼0.6 eV. This work not only provides a strategy for effectively evaluating the InAs1−xSbx bandgap both theoretically and experimentally but also offers a more reliable basis for fabricating high-performance mid-infrared detectors with high operating temperatures.

Funder

National Natural Science Foundation of China

Publisher

AIP Publishing

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