Bose-Einstein Condensation, the Lambda Transition, and Superfluidity for Interacting Bosons
Abstract
Bose-Einstein condensation and the -transition are described in molecular detail for bosons interacting with a pair potential. New phenomena are identified that are absent in the usual ideal gas treatment. Monte Carlo simulations of Lennard-Jones helium-4 neglecting ground momentum state bosons give a diverging heat capacity approaching the transition. Pure permutation loops give continuous growth in the occupancy of the ground momentum state. Mixed ground and excited momentum state permutation loops give a discontinuous transition to the condensed phase. The consequent latent heat for the -transition is 3\% of the total energy. The predicted critical velocity for superfluid flow is within a factor of three of the measured values over three orders of magnitude in pore diameter.
Cite
@article{arxiv.2201.07382,
title = {Bose-Einstein Condensation, the Lambda Transition, and Superfluidity for Interacting Bosons},
author = {Phil Attard},
journal= {arXiv preprint arXiv:2201.07382},
year = {2022}
}
Comments
17 pages, 6 figures, 4 tables, one idea