Bose polarons at finite temperature and strong coupling

Abstract

The temperature dependence of a mobile impurity in a dilute Bose gas, the Bose polaron, is investigated for wide a range of impurity-bath interactions. Using a diagrammatic resummation scheme designed to include scattering processes important at finite temperature T, we show that the phase transition of the environment to a Bose-Einstein condensate at the critical temperature Tc leads to several non-trivial effects. The attractive polaron present at T=0 fragments into two quasiparticle states for finite temperature whenever |a| aB, with a and aB the impurity-boson and boson-boson scattering lengths. While the quasiparticle with higher energy disappears at Tc, the ground state quasiparticle remains well-defined across Tc. Its energy depends non-monotonically on temperature, featuring a minimum at Tc, after which it increases towards zero, and at T Tc the polaron eventually becomes overdamped due to strong scattering with thermally excited bosons.