Electro-optical performance and anisotropic transport study of a Ga-free type-II superlattice barrier structure

Authors

  • Maxime Bouschet IES, Université de Montpellier, CNRS, 860 Saint Priest St., F-34000 Montpellier, CEDEX 5, France; LYNRED, BP 21, 364 de Valence Ave., 38113 Veurey-Voroize, France
  • Vignesh Arounassalame ONERA, Chemin de la Hunière, F-91761 Palaiseau Cedex, France
  • Anthony Ramiandrasoa ONERA, Chemin de la Hunière, F-91761 Palaiseau Cedex, France
  • Jean-Philippe Perez IES, Université de Montpellier, CNRS, 860 Saint Priest St., F-34000 Montpellier, CEDEX 5, France
  • Nicolas Péré-Laperne LYNRED, BP 21, 364 de Valence Ave., 38113 Veurey-Voroize, France
  • Isabelle Ribet-Mohamed ONERA, Chemin de la Hunière, F-91761 Palaiseau Cedex, France
  • Philippe Christol IES, Université de Montpellier, CNRS, 860 Saint Priest St., F-34000 Montpellier, CEDEX 5, France

DOI:

https://doi.org/10.24425/opelre.2023.144549

Keywords

infrared photodetector, type-II superlattice, barrier structure, Ga-free, transport; anisotropy

Abstract

In the past ten years, InAs/InAsSb type-II superlattice has emerged as a promising technology for high-temperature mid-wave infrared photodetector. Nevertheless, transport properties are still poorly understood in this type of material. In this paper, optical and electro-optical measurements have been realised on InAs/InAsSb type-II superlattice mid-wave infrared photodetectors. Quantum efficiency of 50% is measured at 150 K, on the front side illumination and simple pass configuration. Absorption measurement, as well as lifetime measurement are used to theoretically calculate the quantum efficiency thanks to Hovel’s equation. Diffusion length values have been extracted from this model ranging from 1.55 µm at 90 K to 7.44 µm at 200 K. Hole mobility values, deduced from both diffusion length and lifetime measurements, varied from 3.64 cm²/Vs at 90 K to 37.7 cm²/Vs at 200 K. The authors then discuss the hole diffusion length and mobility variations within temperature and try to identify the intrinsic transport mechanisms involved in the superlattice structure.

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Published

2026-03-11

How to Cite

Bouschet, Maxime, et al. “Electro-Optical Performance and Anisotropic Transport Study of a Ga-Free Type-II Superlattice Barrier Structure”. Opto-Electronics Review, Mar. 2026, p. e144549, doi:10.24425/opelre.2023.144549.

Issue

2023: Special Issue - Proceedings of the Quantum Structure Infrared Photodetectors (QSIP) International Conference

Section

Articles

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Copyright (c) 2026 Opto-Electronics Review

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This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

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