High-pressure electronic states in semiconductors studied by infrared spectroscopy: metallization and band gap tuning in Mg2Si, InAs and InSb

Abstract

In this article, a brief introduction is first given on infrared studies of materials at high pressures using a diamond anvil cell. Then, our recent results of high-pressure infrared studies are described for Mg2Si, InAs, and InSb. For Mg2Si, pressure-induced metallization at pressures near 10 GPa were clearly demonstrated for both carrier-doped and undoped Mg2Si by large increases of reflectivity. For InAs and InSb, their band gap (Eg) increased rapidly and almost linearly with pressure with linear coefficients of dEg/dP=84.6 and 112 meV/GPa, respectively. Obtained values of Eg versus lattice parameter at high pressures are compared with those for other IIl-V semiconductors at ambient pressure, giving unique insight into effects of physical and chemical pressures on Eg. Above the structural transition pressures of 7 and 3 GPa for InAs and InSb, respectively, they exhibit highly metallic characteristics accompanied by high reflectivity.