Onset of ferromagnetism in low-doped GaMnAs

Abstract

We develop a quantitatively predictive theory for impurity-band ferromagnetism in the low-doping regime of GaMnAs and compare with experimental measurements of a series of samples whose compositions span the transition from paramagnetic insulating to ferromagnetic conducting behavior. The theoretical Curie temperatures depend sensitively on the local fluctuations in the Mn-hole binding energy, which originates from disorder in the Mn distribution as well as the presence of As antisite defects. The experimentally-determined hopping energy at the Curie temperature is roughly constant over a series of samples whose conductivities vary more than 104 and whose hole concentrations vary more than 102. Thus in this regime the hopping energy is an excellent predictor of the Curie temperature for a sample, in agreement with the theory.