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| A Mode-selective-circuit Gyrotron-traveling-wave Amplifier with High Stability |
| Du Chao-hai①② Liu Pu-kun① Xue Qian-zhong① Zhang Shi-chang① |
①(Key Laboratory of High Power Microwave Sources and Technologies, Institute of Electronics, Chinese Academy of Sciences, Beijing 100190, China)
②(Graduate University of Chinese Academy of Sciences, Beijing 100039, China |
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Abstract This paper devotes to modeling and the stability study of a Ka-band TE01 mode gyrotron Traveling-Wave Tube (gyro-TWT) based on a modal selective circuit alternately loaded with lossy ceramic shells and metal rings. The linear theory and the self-consistent nonlinear theory are applied to analyze the stability of the equivalent interaction circuit. The study reveals that the lossy dielectric-loaded waveguide is with modal selective ability, and its propagation characteristics are similar to that of the circular empty waveguide. The internal feedback physics of the self-excited oscillations are revealed in the stability analysis. The consistency between the theoretical analysis and the experimental tests of American Naval Research Laboratory indicates the reliability of this study. The theoretical model in this paper brings guidance for future designing a gyro-TWT.
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Received: 02 July 2009
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Corresponding Authors:
Du Chao-hai
E-mail: duchaohai@gmail.com
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2010, Vol. 32 
