Abstract
Temperature-dependent radio-frequency size effect data have been obtained for many orbits on the Fermi surface of antimony. These data are analysed according to a model in which the electron-phonon scattering frequencies are proportional to T3, but because of a low effective Debye temperature for the small pieces of Fermi surface, the logarithm of the amplitudes of the data is proportional to T2. The electron-phonon scattering frequencies are determined for both holes and electrons and are found to be highly anisotropic in each case.
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