Band-gap narrowing in ordered and disordered semiconductor alloys
- 12 February 1990
- journal article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 56 (7), 662-664
- https://doi.org/10.1063/1.103307
Abstract
Either spontaneous or artificial ordering of semiconductor alloys into CuAu-like, chalcopyrite, or CuPt-like structures is predicted to be accompanied by a reduction in the direct band gaps relative to the average over the binaries. In this letter calculated results are presented for seven III-V and II-VI alloys. We identify the mechanism for this band-gap narrowing as band folding followed by repulsion between the folded states. The latter is coupled by the non-zinc-blende component of the superlattice potential. The same physical mechanism (but to a different extent) is responsible for gap bowing in disordered alloys.Keywords
This publication has 24 references indexed in Scilit:
- Electronic structure and band gap of (GaP)1(InP)1(111) superlatticeSuperlattices and Microstructures, 1989
- Negative spin-orbit bowing in semiconductor alloysPhysical Review B, 1989
- Structural and electronic properties of bulk GaAs, bulk AlAs, and the (GaAs(AlAssuperlatticePhysical Review B, 1988
- Electronic and vibronic structure of the (GaAs(AlAssuperlatticePhysical Review B, 1987
- Interband transitions of thin-layer GaAs/AlAs superlatticesPhysical Review B, 1987
- Self-consistent pseudopotential calculation for the electronic structure of a (InAs(GaAsmonolayer superlatticePhysical Review B, 1987
- First-Principles Calculation of Semiconductor-Alloy Phase DiagramsPhysical Review Letters, 1987
- Self-consistent energy bands and formation energy of the (GaAs(AlAs(001) superlatticePhysical Review B, 1986
- (InAs)1(GaAs)1 Layered Crystal Grown by MOCVDJapanese Journal of Applied Physics, 1984
- Self-interaction correction to density-functional approximations for many-electron systemsPhysical Review B, 1981