Strongly interacting array of Bose-Einstein condensates trapped in a one-dimensional optical lattice

Makoto Yamashita; Shinya Kato; Atsushi Yamaguchi; Seiji Sugawa; Takeshi Fukuhara; Satoshi Uetake; Yoshiro Takahashi

doi:10.1103/PhysRevA.87.041604

Strongly interacting array of Bose-Einstein condensates trapped in a one-dimensional optical lattice

Makoto Yamashita^*, Shinya Kato, Atsushi Yamaguchi, Seiji Sugawa, Takeshi Fukuhara, Satoshi Uetake, Yoshiro Takahashi

^*この研究の対応する著者

研究成果: Article › 査読

7 被引用数 (Scopus)

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We study a strongly interacting array of Bose-Einstein condensates trapped in a one-dimensional (1D) optical lattice. The system is described by a nonstandard 1D Bose-Hubbard model in which both the tunneling matrix element and the on-site atomic interaction depend on the lattice site due to the interaction broadening of the local wave function and the system inhomogeneity. We quantitatively compare theoretical analyses based on the Gutzwiller approximation with experimental observations obtained using ytterbium atoms. We show that atomic states are highly number squeezed owing to strong interatomic interactions as the lattice potential becomes deeper. Furthermore, the calculated inhomogeneous collisional broadening of spectroscopic line shapes agrees well with high-resolution spectra measured by using the ultranarrow magnetic quadrupole 1S₀^-3P₂ transition.

本文言語	English
論文番号	041604
ジャーナル	Physical Review A - Atomic, Molecular, and Optical Physics
巻	87
号	4
DOI	https://doi.org/10.1103/PhysRevA.87.041604
出版ステータス	Published - 2013 4月 29
外部発表	はい

ASJC Scopus subject areas

原子分子物理学および光学

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10.1103/PhysRevA.87.041604

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abstract = "We study a strongly interacting array of Bose-Einstein condensates trapped in a one-dimensional (1D) optical lattice. The system is described by a nonstandard 1D Bose-Hubbard model in which both the tunneling matrix element and the on-site atomic interaction depend on the lattice site due to the interaction broadening of the local wave function and the system inhomogeneity. We quantitatively compare theoretical analyses based on the Gutzwiller approximation with experimental observations obtained using ytterbium atoms. We show that atomic states are highly number squeezed owing to strong interatomic interactions as the lattice potential becomes deeper. Furthermore, the calculated inhomogeneous collisional broadening of spectroscopic line shapes agrees well with high-resolution spectra measured by using the ultranarrow magnetic quadrupole 1S0-3P2 transition.",

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AU - Yamashita, Makoto

AU - Kato, Shinya

AU - Yamaguchi, Atsushi

AU - Sugawa, Seiji

AU - Fukuhara, Takeshi

AU - Uetake, Satoshi

AU - Takahashi, Yoshiro

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N2 - We study a strongly interacting array of Bose-Einstein condensates trapped in a one-dimensional (1D) optical lattice. The system is described by a nonstandard 1D Bose-Hubbard model in which both the tunneling matrix element and the on-site atomic interaction depend on the lattice site due to the interaction broadening of the local wave function and the system inhomogeneity. We quantitatively compare theoretical analyses based on the Gutzwiller approximation with experimental observations obtained using ytterbium atoms. We show that atomic states are highly number squeezed owing to strong interatomic interactions as the lattice potential becomes deeper. Furthermore, the calculated inhomogeneous collisional broadening of spectroscopic line shapes agrees well with high-resolution spectra measured by using the ultranarrow magnetic quadrupole 1S0-3P2 transition.

AB - We study a strongly interacting array of Bose-Einstein condensates trapped in a one-dimensional (1D) optical lattice. The system is described by a nonstandard 1D Bose-Hubbard model in which both the tunneling matrix element and the on-site atomic interaction depend on the lattice site due to the interaction broadening of the local wave function and the system inhomogeneity. We quantitatively compare theoretical analyses based on the Gutzwiller approximation with experimental observations obtained using ytterbium atoms. We show that atomic states are highly number squeezed owing to strong interatomic interactions as the lattice potential becomes deeper. Furthermore, the calculated inhomogeneous collisional broadening of spectroscopic line shapes agrees well with high-resolution spectra measured by using the ultranarrow magnetic quadrupole 1S0-3P2 transition.

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Strongly interacting array of Bose-Einstein condensates trapped in a one-dimensional optical lattice

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