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W2032898094 abstract "We use the virial expansion to investigate the behavior of the two-component, attractive Fermi gas in the high-temperature limit, where the system smoothly evolves from weakly attractive fermions to weakly repulsive bosonic dimers as the short-range attraction is increased. We present a formalism for computing the virial coefficients that employs a diagrammatic approach to the grand potential and allows one to easily include an effective range ${R}^{*}$ in the interaction. In the limit where the thermal wavelength $ensuremath{lambda}ensuremath{ll}{R}^{*}$, the calculation of the virial coefficients is perturbative even at unitarity and the system resembles a weakly interacting Bose-Fermi mixture for all scattering lengths $a$. By interpolating from the perturbative limits $ensuremath{lambda}/|a|ensuremath{gg}1$ and ${R}^{*}/ensuremath{lambda}ensuremath{gg}1$, we estimate the value of the fourth virial coefficient at unitarity for ${R}^{*}=0$ and we find that it is close to the value obtained in recent experiments. We also derive the equations of state for the pressure, density, and entropy, as well as the spectral function at high temperatures." @default.
W2032898094 created "2016-06-24" @default.
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W2032898094 date "2015-01-08" @default.
W2032898094 modified "2023-10-01" @default.
W2032898094 title "High-temperature limit of the resonant Fermi gas" @default.
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W2032898094 doi "https://doi.org/10.1103/physreva.91.013606" @default.
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