Journal of the Physical Society of Japan
Online ISSN : 1347-4073
Print ISSN : 0031-9015
ISSN-L : 0031-9015
Superfluid–Mott Insulator Transition of Spinor Bose Gases with External Magnetic Fields
Nobutaka UesugiMiki Wadati
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Keywords: spinor bose gases, Hubbard model, superfluid–Mott insulator transition, optical lattice, responce to an external magnetic field
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2003 Volume 72 Issue 5 Pages 1041-1048

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Abstract
We study the superfluid–Mott insulator (SF–MI) transition of a spin-1 boson system in an optical lattice, especially the responce of the system to an external magnetic field. Using the mean field theory, we obtain the phase diagram of SF–MI transition at zero temperature. For antiferromagnetic bosons, the Mott insulator region is stabilized when the number of particles per site is even. We find that only by changing the external magnetic field, the SF–MI transition is realized. On the other hand, the ferromagnetic case perfectly recovers the spin frozen case, that is already performed in experiments.
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© The Physical Society of Japan 2003
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