Particle acceleration by stimulated emission of radiation in cylindrical waveguide

In particle acceleration by stimulated emission of radiation(PASER), efficient interaction occurs when a train of micro-bunches has periodicity identical to the resonance frequency of the medium. Previous theoretical calculations based on the simplified model have only considered the energy exchange...

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Published in:Chinese physics C 2015-07, Vol.39 (7), p.88-92
Main Author: 田秀芳 吴丛凤 贾启卡
Format: Article
Language:English
Subjects:
Boundaries
Electromagnetic fields
Energy density
Exchange
Mathematical models
Particle acceleration
Stimulated emission
Waveguides
介质波导
受激辐射
圆柱形波导
实验条件
数学CAD
气体混合物
粒子加速
能量交换
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description In particle acceleration by stimulated emission of radiation(PASER), efficient interaction occurs when a train of micro-bunches has periodicity identical to the resonance frequency of the medium. Previous theoretical calculations based on the simplified model have only considered the energy exchange in the boundless condition.Under experimental conditions, however, the gas active medium must be guided by the metal waveguide. In this paper, we have developed a model of the energy exchange between a train of micro-bunches and a gas mixture active medium in a waveguide boundary for the first time, based on the theory of electromagnetic fields, and made detailed analysis and calculations with Math CAD. The results show that energy density can be optimized to a certain value to get the maximum energy exchange.
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subjects Boundaries
Electromagnetic fields
Energy density
Exchange
Mathematical models
Particle acceleration
Stimulated emission
Waveguides
介质波导
受激辐射
圆柱形波导
实验条件
数学CAD
气体混合物
粒子加速
能量交换
title Particle acceleration by stimulated emission of radiation in cylindrical waveguide
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