Interband absorption strength in long-wave infrared type-II superlattices with small and large superlattice periods compared to bulk materials

I. Vurgaftman; G. Belenky; Y. Lin; D. Donetsky; L. Shterengas; G. Kipshidze; W. L. Sarney; S. P. Svensson

doi:10.1063/1.4953035

Interband absorption strength in long-wave infrared type-II superlattices with small and large superlattice periods compared to bulk materials

I. Vurgaftman
, G. Belenky
, Y. Lin
, D. Donetsky
, L. Shterengas
, G. Kipshidze
, W. L. Sarney
, S. P. Svensson

Electrical Engineering

Stony Brook University

Naval Research Laboratory
Stony Brook University
U.S. Army Research Laboratory

Research output: Contribution to journal › Article › peer-review

90 Scopus citations

Abstract

The absorption spectra for the antimonide-based type-II superlattices (SLs) for detection in the long-wave infrared (LWIR) are calculated and compared to the measured data for SLs and bulk materials with the same energy gap (HgCdTe and InAsSb). We include the results for the metamorphic InAsSb_x/InAsSb_y SLs with small periods as well as the more conventional strain-balanced InAs/Ga(In)Sb and InAs/InAsSb SLs on GaSb substrates. The absorption strength in small-period metamorphic SLs is similar to the bulk materials, while the SLs with an average lattice constant matched to GaSb have significantly lower absorption. This is because the electron-hole overlap in the strain-balanced type-II LWIR SLs occurs primarily in the hole well, which constitutes a relatively small fraction of the total thickness.

Original language	English
Article number	222101
Journal	Applied Physics Letters
Volume	108
Issue number	22
DOIs	https://doi.org/10.1063/1.4953035
State	Published - May 30 2016

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10.1063/1.4953035

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title = "Interband absorption strength in long-wave infrared type-II superlattices with small and large superlattice periods compared to bulk materials",

abstract = "The absorption spectra for the antimonide-based type-II superlattices (SLs) for detection in the long-wave infrared (LWIR) are calculated and compared to the measured data for SLs and bulk materials with the same energy gap (HgCdTe and InAsSb). We include the results for the metamorphic InAsSbx/InAsSby SLs with small periods as well as the more conventional strain-balanced InAs/Ga(In)Sb and InAs/InAsSb SLs on GaSb substrates. The absorption strength in small-period metamorphic SLs is similar to the bulk materials, while the SLs with an average lattice constant matched to GaSb have significantly lower absorption. This is because the electron-hole overlap in the strain-balanced type-II LWIR SLs occurs primarily in the hole well, which constitutes a relatively small fraction of the total thickness.",

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T1 - Interband absorption strength in long-wave infrared type-II superlattices with small and large superlattice periods compared to bulk materials

AU - Vurgaftman, I.

AU - Belenky, G.

AU - Lin, Y.

AU - Donetsky, D.

AU - Shterengas, L.

AU - Kipshidze, G.

AU - Sarney, W. L.

AU - Svensson, S. P.

PY - 2016/5/30

Y1 - 2016/5/30

N2 - The absorption spectra for the antimonide-based type-II superlattices (SLs) for detection in the long-wave infrared (LWIR) are calculated and compared to the measured data for SLs and bulk materials with the same energy gap (HgCdTe and InAsSb). We include the results for the metamorphic InAsSbx/InAsSby SLs with small periods as well as the more conventional strain-balanced InAs/Ga(In)Sb and InAs/InAsSb SLs on GaSb substrates. The absorption strength in small-period metamorphic SLs is similar to the bulk materials, while the SLs with an average lattice constant matched to GaSb have significantly lower absorption. This is because the electron-hole overlap in the strain-balanced type-II LWIR SLs occurs primarily in the hole well, which constitutes a relatively small fraction of the total thickness.

AB - The absorption spectra for the antimonide-based type-II superlattices (SLs) for detection in the long-wave infrared (LWIR) are calculated and compared to the measured data for SLs and bulk materials with the same energy gap (HgCdTe and InAsSb). We include the results for the metamorphic InAsSbx/InAsSby SLs with small periods as well as the more conventional strain-balanced InAs/Ga(In)Sb and InAs/InAsSb SLs on GaSb substrates. The absorption strength in small-period metamorphic SLs is similar to the bulk materials, while the SLs with an average lattice constant matched to GaSb have significantly lower absorption. This is because the electron-hole overlap in the strain-balanced type-II LWIR SLs occurs primarily in the hole well, which constitutes a relatively small fraction of the total thickness.

UR - https://www.scopus.com/pages/publications/84973931551

U2 - 10.1063/1.4953035

DO - 10.1063/1.4953035

M3 - Article

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VL - 108

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 22

M1 - 222101

ER -

Interband absorption strength in long-wave infrared type-II superlattices with small and large superlattice periods compared to bulk materials

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