Non-linear alloying and strain effects on trivial-topological and semimetal-semiconductor transitions in Bi1-xSbx

Abstract

Applying the approximate DFT-1/2 quasiparticle scheme, band structure unfolding, and generalized quasichemical approximation to describe chemical and structural disorder, we investigate the electronic structure of Bi1-xSbx alloys from first principles. We calculate the important energy levels near the Fermi energy versus the Sb concentration x where the trivial-topological (TT) and semimetal-semiconductor (SMSC) transitions occur. We demonstrate that the energy variation of the relevant states deviates significantly from linear behavior and that the bowings are important to correctly describe the critical compositions. The influence of strain on the energy levels is briefly discussed. It is concluded that the type or sign of strain applied on antimony atoms during the growth of the alloy should be heavily dependent on its composition.