Minority Carrier Lifetime in Beryllium-Doped InAs/InAsSb Strained Layer Superlattices
Abstract
Minority carrier lifetimes in undoped and Beryllium-doped Type-2 Ga-free, InAs/InAsSb strained layer superlattices (SLS) with energy gaps as low as 0.165 eV were determined from photoluminescence kinetics. The minority carrier lifetime of 450 ns at 77 K in the undoped SLS confirms a high material quality. In similarly-grown structures that were p-doped to NA = 6 10^16 and 3 10^17 cm (exp -3), electron lifetimes of tn = 45 ns and 8 ns were measured. The 6 10^16 cm (exp -3) doping level is a factor of 6 greater than the typical background doping level in long-wave infrared (LWIR) Ga-containing InAs/GaSb SLS with similar bandgap and electron lifetime. This suggests that LWIR photodetectors with InAs/InAsSb SLS absorbers can be designed with smaller minority carrier concentrations and diffusion dark current densities. A relatively slow decrease of the lifetime with doping suggests a minor role of Auger recombination in the studied Ga-free SLS at T = 77 K with p-doping up to mid-10^17 cm( exp -3) level.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jun 03, 2014
- Accession Number
- ADA624952
Entities
People
- D. Donetsky
- Dafu Wang
- G. Belenky
- H. Hier
- Stefan P. Svensson
- Wendy L. Sarney
- Yu-Wei Lin
Organizations
- State University of New York