Abstract
Electron cyclotron resonance linewidth in pure Ge has been studied for acoustic deformation potential scattering in the quantum limit. The relaxation time derived therefrom is obtained as a function of temperature (10 to 160 K) and magnetic field (17 to 75 kG). The inverse relaxation time for acoustic deformation potential scattering in the quantum limit is found to be proportional to temperature and to the square root of the magnetic field. These experimental results are explained qualitatively by Meyer's prediction.
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