Quantum efficiency investigations of type-II InAs/GaSb midwave infrared superlattice photodetectors

E. Giard; I. Ribet-Mohamed; J. Jaeck; T. Viale; R. Haïdar; R. Taalat; M. Delmas; J. B. Rodriguez; E. Steveler; N. Bardou; F. Boulard; P. Christol

doi:10.1063/1.4890309

Quantum efficiency investigations of type-II InAs/GaSb midwave infrared superlattice photodetectors

E. Giard
, I. Ribet-Mohamed
, J. Jaeck
, T. Viale
, R. Haïdar
, R. Taalat
, M. Delmas
, J. B. Rodriguez
, E. Steveler
, N. Bardou
, F. Boulard
, P. Christol

ONERA Office National d'Etudes et Recherches Aerospatiales
Centre national de la recherche scientifique
Centre de Nanosciences et de Nanotechnologies
Univ. Joseph Fourier-Grenoble 1

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

Abstract

We present in this paper a comparison between different type-II InAs/GaSb superlattice (T2SL) photodiodes and focal plane array (FPA) in the mid-wavelength infrared domain to understand which phenomenon drives the performances of the T2SL structure in terms of quantum efficiency (QE). Our measurements on test photodiodes suggest low minority carrier diffusion length in the "InAs-rich" design, which penalizes carriers' collection in this structure for low bias voltage and front side illumination. This analysis is completed by a comparison of the experimental data with a fully analytic model, which allows to infer a hole diffusion length shorter than 100 nm. In addition, measurements on a FPA with backside illumination are finally presented. Results show an average QE in the 3-4.7 μm window equal to 42% for U_bias = -0.1 V, 77 K operating temperature and no anti-reflection coating. These measurements, completed by modulation transfer function and noise measurements, reveal that the InAs-rich design, despite a low hole diffusion length, is promising for high performance infrared imaging applications.

Original language	English
Article number	043101
Journal	Journal of Applied Physics
Volume	116
Issue number	4
DOIs	https://doi.org/10.1063/1.4890309
Publication status	Published - 28 Jul 2014
Externally published	Yes

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title = "Quantum efficiency investigations of type-II InAs/GaSb midwave infrared superlattice photodetectors",

abstract = "We present in this paper a comparison between different type-II InAs/GaSb superlattice (T2SL) photodiodes and focal plane array (FPA) in the mid-wavelength infrared domain to understand which phenomenon drives the performances of the T2SL structure in terms of quantum efficiency (QE). Our measurements on test photodiodes suggest low minority carrier diffusion length in the {"}InAs-rich{"} design, which penalizes carriers' collection in this structure for low bias voltage and front side illumination. This analysis is completed by a comparison of the experimental data with a fully analytic model, which allows to infer a hole diffusion length shorter than 100 nm. In addition, measurements on a FPA with backside illumination are finally presented. Results show an average QE in the 3-4.7 μm window equal to 42\% for Ubias = -0.1 V, 77 K operating temperature and no anti-reflection coating. These measurements, completed by modulation transfer function and noise measurements, reveal that the InAs-rich design, despite a low hole diffusion length, is promising for high performance infrared imaging applications.",

author = "E. Giard and I. Ribet-Mohamed and J. Jaeck and T. Viale and R. Ha{\"i}dar and R. Taalat and M. Delmas and Rodriguez, \{J. B.\} and E. Steveler and N. Bardou and F. Boulard and P. Christol",

year = "2014",

month = jul,

day = "28",

doi = "10.1063/1.4890309",

language = "English",

volume = "116",

journal = "Journal of Applied Physics",

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TY - JOUR

T1 - Quantum efficiency investigations of type-II InAs/GaSb midwave infrared superlattice photodetectors

AU - Giard, E.

AU - Ribet-Mohamed, I.

AU - Jaeck, J.

AU - Viale, T.

AU - Haïdar, R.

AU - Taalat, R.

AU - Delmas, M.

AU - Rodriguez, J. B.

AU - Steveler, E.

AU - Bardou, N.

AU - Boulard, F.

AU - Christol, P.

PY - 2014/7/28

Y1 - 2014/7/28

N2 - We present in this paper a comparison between different type-II InAs/GaSb superlattice (T2SL) photodiodes and focal plane array (FPA) in the mid-wavelength infrared domain to understand which phenomenon drives the performances of the T2SL structure in terms of quantum efficiency (QE). Our measurements on test photodiodes suggest low minority carrier diffusion length in the "InAs-rich" design, which penalizes carriers' collection in this structure for low bias voltage and front side illumination. This analysis is completed by a comparison of the experimental data with a fully analytic model, which allows to infer a hole diffusion length shorter than 100 nm. In addition, measurements on a FPA with backside illumination are finally presented. Results show an average QE in the 3-4.7 μm window equal to 42% for Ubias = -0.1 V, 77 K operating temperature and no anti-reflection coating. These measurements, completed by modulation transfer function and noise measurements, reveal that the InAs-rich design, despite a low hole diffusion length, is promising for high performance infrared imaging applications.

AB - We present in this paper a comparison between different type-II InAs/GaSb superlattice (T2SL) photodiodes and focal plane array (FPA) in the mid-wavelength infrared domain to understand which phenomenon drives the performances of the T2SL structure in terms of quantum efficiency (QE). Our measurements on test photodiodes suggest low minority carrier diffusion length in the "InAs-rich" design, which penalizes carriers' collection in this structure for low bias voltage and front side illumination. This analysis is completed by a comparison of the experimental data with a fully analytic model, which allows to infer a hole diffusion length shorter than 100 nm. In addition, measurements on a FPA with backside illumination are finally presented. Results show an average QE in the 3-4.7 μm window equal to 42% for Ubias = -0.1 V, 77 K operating temperature and no anti-reflection coating. These measurements, completed by modulation transfer function and noise measurements, reveal that the InAs-rich design, despite a low hole diffusion length, is promising for high performance infrared imaging applications.

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DO - 10.1063/1.4890309

M3 - Article

AN - SCOPUS:84905833790

SN - 0021-8979

VL - 116

JO - Journal of Applied Physics

JF - Journal of Applied Physics

IS - 4

M1 - 043101

ER -

Quantum efficiency investigations of type-II InAs/GaSb midwave infrared superlattice photodetectors

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