Amplification of short-wave radiation based on the resistive instability of a relativistic electron beam (Quasi-optical theory)

N. S. Ginzburg; A. M. Malkin; I. V. Zheleznov; A. S. Sergeev; E. R. Kocharovskaya

doi:10.1134/S1063784217080114

Amplification of short-wave radiation based on the resistive instability of a relativistic electron beam (Quasi-optical theory)

Authors: Ginzburg N.S.¹, Malkin A.M.¹, Zheleznov I.V.¹, Sergeev A.S.¹, Kocharovskaya E.R.¹
Affiliations:
1. Institute of Applied Physics
Issue: Vol 62, No 8 (2017)
Pages: 1242-1249
Section: Radiophysics
URL: https://journals.rcsi.science/1063-7842/article/view/199853
DOI: https://doi.org/10.1134/S1063784217080114
ID: 199853

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Abstract

The quasi-optical approach has been used to study the linear and nonlinear stages of instability of an electron beam propagating near a flat boundary of an absorbing medium with dissipative characteristics that can be described by the Leontovich impedance boundary conditions. It has been shown that resistive instability can be used to amplify radiation in the short-wave ranges, including the terahertz range. The instability increments and the efficiency of energy transfer have been determined.