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Coupling internal atomic states in a two-component Bose-Einstein condensate via an optical lattice: Extended Mott-superfluid transitions

Other Condensed Matter 2009-09-11 v2 Quantum Physics
Authors: Jonas Larson , Jani-Petri Martikainen
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Abstract

An ultracold gas of coupled two-component atoms in an optical field is studied. Due to the internal two-level structure of the atoms, three competing energy terms exist; atomic kinetic, atomic internal, and atom-atom interaction energies. A novel outcome of this interplay, not present in the regular Bose-Hubbard model, is that in the single band and tight binding approximations four different phases appear: two superfluid and two Mott phases. When passing through the critical point between the two superfluid or the two Mott phases, a swapping of the internal atomic populations takes place. By means of the strong coupling expansion, we find the full phase diagram for the four different phases.

Keywords

bose-hubbard model bose-einstein condensates bose gases

Cite

@article{arxiv.0811.4147,
  title  = {Coupling internal atomic states in a two-component Bose-Einstein condensate via an optical lattice: Extended Mott-superfluid transitions},
  author = {Jonas Larson and Jani-Petri Martikainen},
  journal= {arXiv preprint arXiv:0811.4147},
  year   = {2009}
}

Comments

9 pages, 7 figures

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