Optimal multi-configuration approximation of an N-fermion wave function

Abstract

We propose a simple iterative algorithm to construct the optimal multi-configuration approximation of an N-fermion wave function. That is, M≥ N single-particle orbitals are sought iteratively so that the projection of the given wave function in the CMN-dimensional configuration subspace is maximized. The algorithm has a monotonic convergence property and can be easily parallelized. The significance of the algorithm on the study of entanglement in a multi-fermion system and its implication on the multi-configuration time-dependent Hartree-Fock (MCTDHF) are discussed. The ground state and real-time dynamics of spinless fermions with nearest-neighbor interactions are studied using this algorithm, discussing several subtleties.