Machine learning for molecular dynamics with strongly correlated electrons

Abstract

We use machine learning to enable large-scale molecular dynamics (MD) of a correlated electron model under the Gutzwiller approximation scheme. This model exhibits a Mott transition as a function of on-site Coulomb repulsion U. The repeated solution of the Gutzwiller self-consistency equations would be prohibitively expensive for large-scale MD simulations. We show that machine learning models of the Gutzwiller potential energy can be remarkably accurate. The models, which are trained with N=33 atoms, enable highly accurate MD simulations at much larger scales (N103). We investigate the physics of the smooth Mott crossover in the fluid phase.