Guo He-Zhong, Chen Zeng-Gui. THE PHASE CONDITION OF THE WEIBEL INSTABILITYGAIN MECHANISM AND A WIDE BAND SLOWWAVE CYCLOTRON AMPLIFIER[J]. Journal of Electronics & Information Technology, 1981, 3(4): 249-253.
Citation:
Guo He-Zhong, Chen Zeng-Gui. THE PHASE CONDITION OF THE WEIBEL INSTABILITYGAIN MECHANISM AND A WIDE BAND SLOWWAVE CYCLOTRON AMPLIFIER[J]. Journal of Electronics & Information Technology, 1981, 3(4): 249-253.
Guo He-Zhong, Chen Zeng-Gui. THE PHASE CONDITION OF THE WEIBEL INSTABILITYGAIN MECHANISM AND A WIDE BAND SLOWWAVE CYCLOTRON AMPLIFIER[J]. Journal of Electronics & Information Technology, 1981, 3(4): 249-253.
Citation:
Guo He-Zhong, Chen Zeng-Gui. THE PHASE CONDITION OF THE WEIBEL INSTABILITYGAIN MECHANISM AND A WIDE BAND SLOWWAVE CYCLOTRON AMPLIFIER[J]. Journal of Electronics & Information Technology, 1981, 3(4): 249-253.
Starting from the view point of the coherent cyclotron radiation, we work out the phase condition of the Weibel instability gain mechanism and make a comparison with the phase condition of the cyclotron maser gain mechanism. Moreover, we propose a conceived slow wave cyclotron amplifier (SWCA) with a periodic rf structure.
K. R. Chu and J. Hirshfield, Phys. Fluids, 21(1978).461.[4]P. Sprangle and A. Drobot, IEEE Trans. on Microwave Theorlt and Techniques, MTT-25(1977),528.
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