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Paper detail

Spin-charge separation in a 1D Fermi gas with tunable interactions

Ultracold atoms confined to periodic potentials have proven to be a powerful tool for quantum simulation of complex many-body systems. We confine fermions to one-dimension to realize the Tomonaga-Luttinger liquid model describing the highly collective nature of their low-energy excitations. We use Bragg spectroscopy to directly excite either the spin or charge wave for various strength of repulsive interaction. We observe that the velocity of the spin and charge excitations shift in opposite directions with increasing interaction, a hallmark of spin-charge separation. The excitation spectra are in quantitative agreement with the Tomonaga-Luttinger liquid theory, and furthermore, we find that the spin excitations become dispersive at large interaction, signaling the onset of the nonlinear Luttinger liquid regime.

preprint2022arXivOpen access
Ruwan SenaratneDanyel Cavazos-CavazosSheng WangFeng HeYa-Ting ChangAashish KafleHan PuXi-Wen GuanRandall G. Hulet
physics.atom-phcond-mat.quant-gas
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Ruwan SenaratneDanyel Cavazos-CavazosSheng WangFeng HeYa-Ting ChangAashish KafleHan PuXi-Wen GuanRandall G. Hulet

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