Investigation of the pressure dependence of band gaps for silver halides within a first-principles method

Abstract

The pressure dependence of the direct and indirect band gaps in rocksalt silver halides has been studied using the full-potential linearized augmented plane wave method within the generalized gradient approximation for the exchange-correlation potential. It is found that indirect band gaps (L→X and L→Γ) exhibit different responses to application of pressure. Similar trends are found for the indirect band gaps of AgCl and AgBr while the trend in AgI (L→Γ) band gap is different. In all the compounds, the effect of pressure on the direct band gaps (Γ→Γ, X→X and L→L) show qualitatively similar results. The fundamental indirect band gap (L→Γ) pressure coefficients are −4.19 meV (GPa) −1 and −3.81 meV (GPa) −1 for AgCl and AgBr while for AgI (L→X) it is −61.50 meV (GPa) −1. The band gap pressure coefficient as well as the volume deformation potential for the various band gaps of the compounds have also been investigated.