Upper bound for the ground state energy of a dilute Bose gas of hard spheres

Abstract

We consider a gas of bosons interacting through a hard-sphere potential with radius a in the thermodynamic limit. We derive a simple upper bound for the ground state energy per particle at low density. Our bound captures the leading term 4π a and shows that corrections are smaller than C a ( a3)1/2, for a sufficiently large constant C > 0. In combination with a known lower bound, our result implies that the first sub-leading term to the ground state energy is, in fact, of the order a ( a3)1/2, in agreement with the Lee-Huang-Yang prediction.

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