Quantum opening of the Coulomb gap in two dimensions

Abstract

For a constant density of spinless fermions in strongly disordered two dimensional clusters, the energy level spacing between the ground state and the first excitation is studied for increasing system sizes. The average indicates a smooth opening of the gap when the Coulomb energy to Fermi energy ratio rs increases from 0 to 3, while the distribution exhibits a sharp Poisson-Wigner-like transition at rs ≈ 1. The results are related to the transition from Mott to Efros-Shklovskii hopping conductivity recently observed at a similar ratio rs.

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