24 March 2017 Molecular dynamics growth modeling of InAs1−xSb x -based type-II superlattice
Author Affiliations +
Type-II strained-layer superlattices (T2SL) based on InAs 1 x Sb x are a promising photovoltaic detector material technology for thermal imaging; however, Shockley–Read–Hall recombination and generation rates are still too high for thermal imagers based on InAs 1 x Sb x T2SL to reach their ideal performance. Molecular dynamics simulations using the Stillinger–Weber (SW) empirical potentials are a useful tool to study the growth of tetrahedral coordinated crystals and the nonequilibrium formation of defects within them, including the long-range effects of strain. SW potentials for the possible atomic interactions among {Ga, In, As, Sb} were developed by fitting to ab initio calculations of elastically distorted zinc blende and diamond unit cells. The SW potentials were tested against experimental observations of molecular beam epitaxial (MBE) growth and then used to simulate the MBE growth of InAs / InAs 0.5 Sb 0.5 T2SL on GaSb substrates over a range of processes parameters. The simulations showed and helped to explain Sb cross-incorporation into the InAs T2SL layers, Sb segregation within the InAsSb layers, and identified medium-range defect clusters involving interstitials and their induction of interstitial-vacancy pairs. Defect formation was also found to be affected by growth temperature and flux stoichiometry.
© 2017 Society of Photo-Optical Instrumentation Engineers (SPIE)
Anthony J. Ciani, Anthony J. Ciani, Christoph H. Grein, Christoph H. Grein, Barry Irick, Barry Irick, Maosheng Miao, Maosheng Miao, Nicholas Kioussis, Nicholas Kioussis, } "Molecular dynamics growth modeling of InAs1−xSb x -based type-II superlattice," Optical Engineering 56(9), 091609 (24 March 2017). https://doi.org/10.1117/1.OE.56.9.091609 . Submission: Received: 1 November 2016; Accepted: 3 March 2017
Received: 1 November 2016; Accepted: 3 March 2017; Published: 24 March 2017

Back to Top