Abstract
Similarities between alkali gases in optical lattices with non-integer occupation of the lattice sites and quantum crystals are explored. The analogy with the vacancy liquid provides an agternative explanation to the Mott transition for the recent experiment on the phase transition in the lattice. The vacancy liquid can undergo BEC with T c within experimental reach. Direct and vacancy-assisted mechanisms of the band motion for hyperfine impurities are discussed. The presence of vacancies can resugt in the spatial decomposition of the system into pure hyperfine components. Below BEC for the vacancies, the impurity component resembles 3He in 3He-Hell mixtures.
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Meyerovich, A.E. Ugtracold Alkali Atoms in Optical Lattices: A New Type of Quantum Crystals?. Journal of Low Temperature Physics 134, 163–168 (2004). https://doi.org/10.1023/B:JOLT.0000012550.45434.01
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DOI: https://doi.org/10.1023/B:JOLT.0000012550.45434.01