Exact Solution of Strongly Interacting Quasi-One-Dimensional Spinor Bose Gases

F Deuretzbacher; K Fredenhagen; D Becker; Kai Bongs; K Sengstock; D Pfannkuche

doi:10.1103/PhysRevLett.100.160405

Exact Solution of Strongly Interacting Quasi-One-Dimensional Spinor Bose Gases

F Deuretzbacher, K Fredenhagen, D Becker, Kai Bongs, K Sengstock, D Pfannkuche

Physics and Astronomy

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Abstract

We present an exact analytical solution of the fundamental system of quasi-one-dimensional spin-1 bosons with infinite delta repulsion. The eigenfunctions are constructed from the wave functions of noninteracting spinless fermions, based on Girardeau's Fermi-Bose mapping. We show that the spinor bosons behave like a compound of noninteracting spinless fermions and noninteracting distinguishable spins. This duality is especially reflected in the spin densities and the energy spectrum. We find that the momentum distribution of the eigenstates depends on the symmetry of the spin function. Furthermore, we discuss the splitting of the ground state multiplet in the regime of large but finite repulsion.

Original language	English
Article number	160405
Journal	Physical Review Letters
Volume	100
Issue number	16
Early online date	1 Apr 2008
DOIs	https://doi.org/10.1103/PhysRevLett.100.160405
Publication status	Published - 1 Apr 2008

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abstract = "We present an exact analytical solution of the fundamental system of quasi-one-dimensional spin-1 bosons with infinite delta repulsion. The eigenfunctions are constructed from the wave functions of noninteracting spinless fermions, based on Girardeau's Fermi-Bose mapping. We show that the spinor bosons behave like a compound of noninteracting spinless fermions and noninteracting distinguishable spins. This duality is especially reflected in the spin densities and the energy spectrum. We find that the momentum distribution of the eigenstates depends on the symmetry of the spin function. Furthermore, we discuss the splitting of the ground state multiplet in the regime of large but finite repulsion.",

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AU - Deuretzbacher, F

AU - Fredenhagen, K

AU - Becker, D

AU - Bongs, Kai

AU - Sengstock, K

AU - Pfannkuche, D

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N2 - We present an exact analytical solution of the fundamental system of quasi-one-dimensional spin-1 bosons with infinite delta repulsion. The eigenfunctions are constructed from the wave functions of noninteracting spinless fermions, based on Girardeau's Fermi-Bose mapping. We show that the spinor bosons behave like a compound of noninteracting spinless fermions and noninteracting distinguishable spins. This duality is especially reflected in the spin densities and the energy spectrum. We find that the momentum distribution of the eigenstates depends on the symmetry of the spin function. Furthermore, we discuss the splitting of the ground state multiplet in the regime of large but finite repulsion.

AB - We present an exact analytical solution of the fundamental system of quasi-one-dimensional spin-1 bosons with infinite delta repulsion. The eigenfunctions are constructed from the wave functions of noninteracting spinless fermions, based on Girardeau's Fermi-Bose mapping. We show that the spinor bosons behave like a compound of noninteracting spinless fermions and noninteracting distinguishable spins. This duality is especially reflected in the spin densities and the energy spectrum. We find that the momentum distribution of the eigenstates depends on the symmetry of the spin function. Furthermore, we discuss the splitting of the ground state multiplet in the regime of large but finite repulsion.

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DO - 10.1103/PhysRevLett.100.160405

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VL - 100

JO - Physical Review Letters

JF - Physical Review Letters

IS - 16

M1 - 160405

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Exact Solution of Strongly Interacting Quasi-One-Dimensional Spinor Bose Gases

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