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光学晶格中强相互作用费米气体的超流-绝缘体转变

Superfluid-insulator transition of strongly interacting fermi gases in optical lattices.

作者信息

Zhai Hui, Ho Tin-Lun

机构信息

Physics Department, The Ohio State University, Columbus, Ohio 43210, USA.

出版信息

Phys Rev Lett. 2007 Sep 7;99(10):100402. doi: 10.1103/PhysRevLett.99.100402.

DOI:10.1103/PhysRevLett.99.100402
PMID:17930378
Abstract

We study a quantum phase transition between fermion superfluid (SF) and band insulator (BI) of fermions in optical lattices. The destruction of the band insulator is driven by the energy gain in promoting fermions from valance band to various conducting bands to form Cooper pairs. We show that the transition must take place in lattice height Vo/ER between 2.23 and 4.14. The latter is the prediction of mean-field theory while the former is the value for opening a band gap. As one moves across resonance to the molecule side, the SF-BI transition evolves into the SF-Mott-insulator transition of bosonic molecules. We shall also present the global phase diagram for SF-insulator transition for the BCS-BEC family.

摘要

我们研究了光学晶格中费米子的费米子超流体(SF)和带绝缘体(BI)之间的量子相变。带绝缘体的破坏是由将费米子从价带提升到各种导带以形成库珀对时的能量增益驱动的。我们表明,该相变必须发生在晶格高度Vo/ER处于2.23至4.14之间。后者是平均场理论的预测值,而前者是打开带隙的值。当越过共振向分子一侧移动时,SF-BI相变演变为玻色子分子的SF-莫特绝缘体相变。我们还将给出BCS-BEC族的SF-绝缘体相变的全局相图。

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