Quantum efficiency of InSbBi quantum dot photodetector

Sana N. Dwara; Amin H. Al-Khursan

doi:10.1364/AO.54.009722

Applied Optics
Vol. 54,
Issue 33,
pp. 9722-9727
(2015)
•https://doi.org/10.1364/AO.54.009722

Quantum efficiency of InSbBi quantum dot photodetector

Sana N. Dwara and Amin H. Al-Khursan

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Sana N. Dwara and Amin H. Al-Khursan, "Quantum efficiency of InSbBi quantum dot photodetector," Appl. Opt. 54, 9722-9727 (2015)

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Abstract

An ${InSb}_{1 - x} {Bi}_{x}$ quantum dot (QD) photodetector was studied in this work. First, the quantum efficiency (QE) was modeled for this structure where the relations of electron and hole densities and their contribution to current density are derived. The absorption of $p$ -, $n$ - and depletion regions were calculated before specifying their contribution to QE. It is shown that adding Bi to Sb-based QD structures increases their absorption and QE. High Bi content extended the cutoff detection wavelength of these detectors.

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Parameter	Symbol	Value	Unit
Electron diffusion length	$L_{n}$	0.3	μm
Hole diffusion length	$L_{p}$	0.25	μm
Electron carrier lifetime	$τ_{n}$	0.54	ns
Hole carrier lifetime	$τ_{p}$	0.054	ns
Depletion width	W	0.48	μm
Junction depth	$x_{j}$	0.1	μm
Superlattice thickness	H	1.6	μm
Front surface power reflectivity	R	0.99
Illumination photon number	$ϕ$	$10^{10}$	Photon/s

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Applied Optics