English

Bose-Einstein condensation in multilayers

Quantum Gases 2015-05-14 v1

Abstract

The critical BEC temperature TcT_{c} of a non interacting boson gas in a layered structure like those of cuprate superconductors is shown to have a minimum Tc,mT_{c,m}, at a characteristic separation between planes ama_{m}. It is shown that for a<ama<a_{m}, TcT_{c} increases monotonically back up to the ideal Bose gas T0T_{0} 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 TcT_{c} 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.

Keywords

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

R2 v1 2026-06-21T14:19:01.128Z