Demonstration of Zn-Diffused Planar Long-Wavelength Infrared Photodetector Based on Type-II Superlattice Grown by MBE
IEEE Journal of Quantum Electronics(2022)
Abstract
We report on a planar long-wavelength infrared photodetector based on InAs/InAs
1-x
Sb
x
type-II superlattice with zinc diffusion. The superlattice structures were grown by molecular beam epitaxy, followed by a post-growth Zinc diffusion process in a metal-organic chemical vapor deposition reactor. The planar photodetectors showed a peak responsivity of 2.18 A/W, under an applied bias of −20 mV, with a corresponding quantum efficiency of 44.5%, without any anti-reflection coating, and had a 100% cut-off wavelength of
$8.5 \mu \text{m}$
at 77 K temperature. These photodetectors exhibit a specific peak detectivity of
$3.0\times 10^{12}$
cm.Hz
1/2
/W, with a dark current density of
$1.5\times 10^{-5}$
A/cm
2
and the differential-resistance-area product of
$\sim 8.6\times 10^{-1} \Omega $
.cm
2
, under an applied bias of −20 mV at 77 K. A comparative study between the planar and conventional mesa-isolated photodetectors was also carried out.
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Key words
Planar photodetector,long-wavelength infrared,Zinc diffusion,type II superlattice,molecular beam epitaxy
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