Numerical Analysis of Slow-Wave Instabilities in an X-Band Sinusoidally Corrugated Waveguide with Coaxial Slow-Wave Structure

Shingo ABE; Kazuo OGURA; Kosuke OTUBO; Hiroki KIMURA

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Numerical Analysis of Slow-Wave Instabilities in an X-Band Sinusoidally Corrugated Waveguide with Coaxial Slow-Wave Structure

机译：具有同轴慢波结构的X波段正弦波纹波导中慢波不稳定性的数值分析

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The dispersion characteristics and slow-wave instabilities of a sinusoidally corrugated waveguide with coaxial slow-wave structure (SWS) are analyzed. In SWS, a central cylindrical conductor is surrounded by an outer cylindrical conductor. Sinusoidal corrugation is formed on either conductor or both conductors. The corrugation parameters are those used for an X-band SWS. The relative phase between the sinusoidal corrugations on the inner and outer conductors affects the dispersion characteristics. Instabilities due to beam interactions with the slow -waves are examined by considering three-dimensional beam perturbations. The slow cyclotron instability occurs in addition to the Cherenkov instability, since transverse as well as longitudinal perturbations are included.

机译：分析了同轴慢波结构（SWS）的正弦波纹波导的色散特性和慢波不稳定性。在SWS中，中心圆柱导体被外圆柱导体包围。正弦波纹形成在一个或两个导体上。波纹参数是用于X波段SWS的参数。内导体和外导体上的正弦波纹之间的相对相位会影响色散特性。通过考虑三维光束扰动来检查由于光束与慢波相互作用而引起的不稳定性。除了切伦科夫不稳定性之外，还会出现慢回旋加速器不稳定性，这是因为包括了横向和纵向扰动。

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《Plasma and Fusion Research》 |2010年第10期|共1页
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Shingo ABE; Kazuo OGURA; Kosuke OTUBO; Hiroki KIMURA;
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中图分类等离子体物理学;
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1. Numerical Analysis of Slow-Wave Instabilities in an Oversized Sinusoidally Corrugated Waveguide Driven by a Finitely Thick Annular Electron Beam [J] . Kosuke OTUBO, Kazuo OGURA, Mitsuhisa YAMAKAWA, Plasma and Fusion Research . 2010,第10期

机译：有限厚度环形电子束驱动超大正弦波纹波导慢波不稳定性的数值分析
2. Numerical Analysis of Slow-Wave Instabilities in Oversized Sinusoidaly Corrugated Waveguide Driven by Finitely Thick Annular Electron Beam [J] . K. Otubo, K. Ogura, M. Yamakawa, Research report NIFS-PROC series . 2009,第78期

机译：有限厚度环形电子束驱动超大正弦波状波导慢波不稳定性的数值分析
3. Normal Modes and Slow-Wave Instabilities in Oversized Coaxial Slow-Wave Structure With Rectangular Corrugations [J] . Ogura K., Yambe K., Yamamoto K., IEEE Transactions on Plasma Science . 2013,第10aPart1期

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4. NUMERICAL STUDY OF SLOW-WAVE INSTABILITIES IN OVERSIZED COAXIAL SLOW-WAVE STRUCTURE [C] . K. Ogura, S. Abe, H. Kimura, Euro-Asian Pulsed Power Conference . 2010

机译：超大型同轴慢波结构中慢波稳定性的数值研究
5. New Resonances, Gratings, and Slow-wave Structures Based on 2D Periodic Structures [D] . Li, Xiaoqiang. 2018

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6. Analysis of Slow-Wave Activity and Slow-Wave Oscillations Prior to Somnambulism [O] . Olivier Jaar, Mathieu Pilon, Julie Carrier, 2010

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7. Numerical Analysis of Slow-Wave Instabilities in an X-Band Sinusoidally Corrugated Waveguide with Coaxial Slow-Wave Structure [O] . Shingo ABE, Kazuo OGURA, Kosuke OTUBO, 2010

机译：具有同轴慢波结构的X波段正弦波纹波导慢波稳定性的数值分析

Numerical Analysis of Slow-Wave Instabilities in an X-Band Sinusoidally Corrugated Waveguide with Coaxial Slow-Wave Structure

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