1. Theoretical Study of a Plasma-Filled Relativistic Cerenkov Generator With Coaxial Slow-Wave Structure.
- Author
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Xiao Renzhen, Lin Yuzheng, Song Zhimin, Chen Changhua, and Liu Guozhi
- Subjects
- *
CHERENKOV radiation , *ELECTROMAGNETIC waves , *SYSTEM analysis , *PLASMA gases , *ELECTRON beams , *SPECTRUM analysis , *RADIATION , *OPTICS , *PLASMA electrodynamics - Abstract
The linear and nonlinear theory of a plasma-filled relativistic Cerenkov generator with coaxial slow-wave structure (SWS) is developed. Linear analysis includes the space-charge limiting current, dispersion relations, dispersion curves, and coupling impedance. In nonlinear theory, the electron beam space-charge effect, nonsynchronous interaction, and complex reflection coefficients of the electromagnetic wave at the boundaries of the SWS are taken into account. With the assumption of quasi steady state, the self-consistent equations are numerically calculated using the fourth-order Runga-Kutta method. The effects of the relative phase between inner and outer corrugations, phase and amplitude of the complex reflection coefficient at the boundaries of the SWS, and plasma density on device efficiency are discussed. Efficiencies of up to 37% without plasma and about 59% with plasma density of np = 3-7 × 1011 cm-3 are obtained. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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