Bhaseen M J, Hohenadler M, Silver A O, Simons B D
Cavendish Laboratory, University of Cambridge, Cambridge, CB3 0HE, United Kingdom.
Phys Rev Lett. 2009 Apr 3;102(13):135301. doi: 10.1103/PhysRevLett.102.135301. Epub 2009 Mar 30.
Motivated by recent experiments on cold atomic gases in ultrahigh finesse optical cavities, we consider the two-band Bose-Hubbard model coupled to quantum light. Photoexcitation promotes carriers between the bands, and we study the interplay between Mott insulating behavior and superfluidity. The model displays a U(1)xU(1) symmetry which supports the coexistence of Mott insulating and superfluid phases and yields a rich phase diagram with multicritical points. This symmetry is shared by several other problems of current experimental interest, including two-component Bose gases in optical lattices and the bosonic BEC-BCS crossover for atom-molecule mixtures induced by a Feshbach resonance. We corroborate our findings by numerical simulations.
受近期关于超高精细度光学腔中冷原子气体实验的启发,我们考虑了与量子光耦合的双能带玻色 - 哈伯德模型。光激发促使载流子在能带间跃迁,我们研究了莫特绝缘行为与超流性之间的相互作用。该模型展现出U(1)×U(1)对称性,这种对称性支持莫特绝缘相和超流相的共存,并产生了具有多临界点的丰富相图。包括光学晶格中的双组分玻色气体以及由费什巴赫共振诱导的原子 - 分子混合物的玻色凝聚 - 玻色超导转变等当前一些具有实验意义的其他问题也具有这种对称性。我们通过数值模拟证实了我们的研究结果。