Abstract
Azbel'-Kaner cyclotron resonance has been studied at 36 and 9 Gc/sec at 1.2\ifmmode^\circ\else\textdegree\fi{}K in the three principal symmetry planes of gallium with the microwave currents both parallel and perpendicular to the applied magnetic field. The resonance signals were characterized by extreme complexity and high resolution (long relaxation times). Mass values are determined as a function of orientation of the magnetic field in the sample surfaces. No interpretation of the mass branches on a model Fermi surface is attempted, but some correlations with previous de Haas-van Alphen data are presented.
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