Effective Hamiltonian for Excitons with Spin Degrees of Freedom

Abstract

Starting from the conventional electron-hole Hamiltonian Heh, we derive an effective Hamiltonian H1s for 1s excitons with spin degrees of freedom. The Hamiltonian describes optical processes close to the exciton resonance for the case of weak excitation. We show that straightforward bosonization of Heh does not give the correct form of H1s, which we obtain by a projection onto the subspace spanned by the 1s excitons. The resulting relaxation and renormalization terms generate an interaction between excitons with opposite spin. Moreover, exciton-exciton repulsive interaction is greatly reduced by the renormalization. The agreement of the present theory with the experiment supports the validity of the description of a fermionic system by bosonic fields in two dimensions.

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