Carrier induced ferromagnetism in diluted magnetic semi-conductors
Abstract
We present a theory for carrier induced ferromagnetism in diluted magnetic semi-conductor (DMS). Our approach treats on equal footing quantum fluctuations within the RPA approximation and disorder within CPA. This method allows for the calculation of Tc, magnetization and magnon spectrum as a function of hole, impurity concentration and temperature. It is shown that, sufficiently close to Tc, and within our decoupling scheme (Tyablicov type) the CPA for the itinerant electron gas reduces to the Virtual Crystal Approximation. This allows, in the low impurity concentration and low density of carriers to provide analytical expression for Tc. For illustration, we consider the case of Ga1-cMncAs and compare our results with available experimental data.
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