Renormalization factor and effective mass of the two-dimensional electron gas

Abstract

We calculate the momentum distribution of the Fermi liquid phase of the homogeneous, two-dimensional electron gas. We show that, close to the Fermi surface, the momentum distribution of a finite system with N electrons approaches its thermodynamic limit slowly, with leading order corrections scaling as N-1/4. These corrections dominate the extrapolation of the renormalization factor, Z, and the single particle effective mass, m*, to the infinite system size. We show how convergence can be improved analytically. In the range 1 rs 10, we get a lower renormalization factor Z and a higher effective mass, m*>m, compared to the perturbative RPA values.