Abstract
This is the second of two papers in which microscopic expressions for the amplitudes and dispersion relations for hydrodynamic modes in an isotropic Fermi superfluid are derived. In this paper we obtain approximate solutions to the linearized kinetic equations for the bogolon spin density and total density for the case of long-wavelength disturbances after long times when a fluctuating superfluid velocity is present. In so doing, we obtain microscopic expressions for the amplitude and dispersion relations for the spin diffusion mode, the two shear modes, and the four longitudinal modes (two first-sound modes and two second-sound modes).
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References
L. E. Reichl,J. Stat. Phys., this issue, preceding paper.
V. P. Galaiko,Sov. Phys.-JETP 34:203 (1972).
V. S. Shumeiko,Sov. Phys.-JETP 36:330 (1973).
L. E. Reichl,Trans. Th. and Stat. Phys. 6:129 (1977).
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Reichl, L.E. Microscopic modes in a Fermi superfluid. II. Dispersion relations. J Stat Phys 23, 111–125 (1980). https://doi.org/10.1007/BF01014431
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DOI: https://doi.org/10.1007/BF01014431