Polarons in the radio-frequency spectrum of a quasi-two-dimensional Fermi gas
Abstract
We measure radio-frequency spectra for a two-component mixture of a 6Li atomic Fermi gas in the quasi-two-dimensional regime. Near the Feshbach resonance, where the transverse Fermi energy is large compared to the confinement-induced dimer binding energies for the initial and final states, we find that the observed resonances do not correspond to transitions between confinement-induced dimers. The spectrum appears to be well-described by transitions between noninteracting polaron states in two dimensions.
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