Hot-Carrier Model for an Anomalous Exponent of Photoconduction

Abstract

Experiments often show that the photoconductance σ of a semiconductor system and the light intensity I are related by σ Iγ. Conventional theories give a satisfactory explanation for γ=1 or γ=1/2, but anamalous exponents close to γ=3/4 are often observed. This paper argues that there is a universal anomalous regime for which γ=3/4 (or γ=2/3 in two-dimensional samples), resulting from the kinetics of electron-hole recombination being controlled by Coulombic attraction. Because the local electric fields are extremely high, the theory appeals to the 'hot-carrier' model for transport in semiconductors.