Bose-Einstein condensation in multilayers
Abstract
The critical BEC temperature of a non interacting boson gas in a layered structure like those of cuprate superconductors is shown to have a minimum , at a characteristic separation between planes . It is shown that for , increases monotonically back up to the ideal Bose gas suggesting that a reduction in the separation between planes, as happens when one increases the pressure in a cuprate, leads to an increase in the critical temperature. For finite plane separation and penetrability the specific heat as a function of temperature shows two novel crests connected by a ridge in addition to the well-known BEC peak at associated with the 3D behavior of the gas. For completely impenetrable planes the model reduces to many disconnected infinite slabs for which just one hump survives becoming a peak only when the slab widths are infinite.
Cite
@article{arxiv.0912.0567,
title = {Bose-Einstein condensation in multilayers},
author = {P. Salas and M. Fortes and M. de Llano and F. J. Sevilla and M. A. Solis},
journal= {arXiv preprint arXiv:0912.0567},
year = {2015}
}
Comments
Four pages, four figures