Abstract:
The semi-local Becke-Johnson (BJ) exchange-correlation potential and its modified form proposed by Tran and Blaha have attracted a lot of interest recently because of the surprisingly accurate band gaps they can deliver for many semiconductors and insulators (e.g., sp semiconductors, noble-gas solids, and transition-metal oxides). The structural and electronic properties of ternary alloys BB1 (-) N-x(x) (0 <X < 1) in zinc-blende phase have been reported in this study. The results of the studied binary compounds (BN and BBi) and ternary alloys BB1 (-) N-x(x) structures are presented by means of density functional theory. The exchange and correlation effects are taken into account by using the generalized gradient approximation (GGA) functional of Wu and Cohen (WC) which is an improved form of the most popular Perdew-BurkeErnzerhof (PBE). For electronic properties the modified Becky-Johnson (mBJ) potential, which is more accurate than standard semi-local [DA and PBE calculations, has been chosen. Geometric optimization has been implemented before the volume optimization calculations for all the studied alloys structure. The obtained equilibrium lattice constants of the studied binary compounds are in coincidence with experimental works. And, the variation of the lattice parameter of ternary alloys BB1 (-) N-x(x) almost perfectly matches with Vegard's law. The spin-orbit interaction (SOD has been also considered for structural and electronic calculations and the results are compared to those of non-SOl calculations. (C) 2015 Elsevier B.V. All rights reserved