Abstract
High-power microwave radiation is observed when a positive pulse is applied to an anode of a reflex triode. The frequency of radiation varies as $f\ensuremath{\sim}\frac{{V}^{\frac{1}{2}}}{{D}^{n}}$, where $V$ is the anode voltage, $D$ is the cathode-virtual-cathode spacing, and $0<n<~1$. The basic features of the radiation are explained by a theoretical model which predicts particle bunching as a result of the energy dependence of the electron oscillation frequency.
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