Systematic interpolatory ansatz for one-dimensional polaron systems

Abstract

We explore a new variational principle for studying one-dimensional quantum systems in a trapping potential. We focus on the Fermi polaron problem, where a single distinguishable impurity interacts through a contact potential with a background of identical fermions. We can accurately describe this system at arbitrary finite repulsion by constructing a truncated basis containing states at both the limits of zero and infinite repulsion. We show how to construct this basis and how to obtain energies, density matrices and correlation functions, and provide results both for a harmonic well and a double well for various particle numbers. The results are compared both with matrix product states methods and with the analytical result for two particles in a harmonic well.