Entanglement and particle correlations of Fermi gases in harmonic traps

Abstract

We investigate quantum correlations in the ground state of noninteracting Fermi gases of N particles trapped by an external space-dependent harmonic potential, in any dimension. For this purpose, we compute one-particle correlations, particle fluctuations and bipartite entanglement entropies of extended space regions, and study their large-N scaling behaviors. The half-space von Neumann entanglement entropy is computed for any dimension, obtaining SHS = cl N(d-1)/d ln N, analogously to homogenous systems, with cl=1/6, 1/(62), 1/(66) in one, two and three dimensions respectively. We show that the asymptotic large-N relation SA≈ π2 VA/3, between the von Neumann entanglement entropy SA and particle variance VA of an extended space region A, holds for any subsystem A and in any dimension, analogously to homogeneous noninteracting Fermi gases.