Abstract
Wave propagation in a 70 GHz transversely magnetized partially filled ring-form solid-plasma waveguide has been theoretically analyzed assuming the plasma material to be an n-type InSb ring at liquid nitrogen temperature. Surface wave resonant characteristics of two possible propagation modes and their dependence upon the waveguide curvature have been numerically analyzed. The results of the previously performed experiments are in good qualitative agreement with the calculated results for one of these modes. These findings both theoretically and experimentally confirm the existence of the slow surface wave resonance in the waveguide concerned.
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