Ab initio path-integral Monte Carlo results for the one-particle spectral function of the warm dense electron gas

Abstract

We compute quasi-exact ab initio path-integral Monte Carlo results for the Matsubara Green's function of the uniform electron gas (UEG) at finite temperature over a broad range of coupling strengths (rs=1,…,10). This allows us to present approximation-free results for the static self-energy ∞(p) and spectral function A(p,ω), and to benchmark previous approximate results for the UEG. In addition, our work opens up intriguing avenues to study the single-particle spectrum and density of states of real warm dense matter systems based on truly first principles.