Development of Bulk InAsSb Alloys and Barrier Heterostructures for Long-Wave Infrared Detectors

被引:0
|
作者
Youxi Lin
Dmitry Donetsky
Ding Wang
David Westerfeld
Gela Kipshidze
Leon Shterengas
Wendy L. Sarney
Stefan P. Svensson
Gregory Belenky
机构
[1] Stony Brook University,Department of ECE
[2] US Army Research Laboratory,undefined
来源
Journal of Electronic Materials | 2015年 / 44卷
关键词
InAsSb; energy gap bowing; long-wave infrared; barrier photodetector;
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学科分类号
摘要
Bulk unrelaxed InAsSb alloys with Sb compositions up to 65% were grown on compositionally graded GaInSb and AlInSb buffers on GaSb substrates by molecular beam epitaxy. The minimum energy gap for these materials at T = 77 K was estimated to be 90 meV. Benchmark material parameters were measured for barrier photodetector heterostructures with 1-μm-thick InAs0.6Sb0.4 absorbers. A minority hole lifetime of 185 ns and a diffusion length of 9 μm at T = 77 K were determined from the transient response of barrier heterostructures. The data imply a hole mobility of 103 cm2/Vs, which was confirmed with frequency response measurements. A 100-μm square mesa contact nBn heterostructure demonstrated a −3 dB frequency response bandwidth of 50 MHz.
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页码:3360 / 3366
页数:6
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