The dipolar Bose-Hubbard model
Quantum Gases
2022-09-14 v3 Strongly Correlated Electrons
Quantum Physics
Abstract
We study a simple model of interacting bosons on a d-dimensional cubic lattice whose dynamics conserves both total boson number and total boson dipole moment. This model provides a simple framework in which several remarkable consequences of dipole conservation can be explored. As a function of chemical potential and hopping strength, the model can be tuned between gapped Mott insulating phases and various types of gapless condensates. The condensed phase realized at large hopping strengths, which we dub a Bose-Einstein insulator, is particularly interesting: despite having a Bose condensate, it is insulating, and despite being an insulator, it is compressible.
Cite
@article{arxiv.2201.04132,
title = {The dipolar Bose-Hubbard model},
author = {Ethan Lake and Michael Hermele and T. Senthil},
journal= {arXiv preprint arXiv:2201.04132},
year = {2022}
}
Comments
15 pages, 5 figures; v3: updated discussion of the 1d model