Yin Yuan-Zhao. INCREASED GAIN OF FREE ELECTRON LASER WITH MAGNETIZED RELATIVISTIC ELECTRON BEAM[J]. Journal of Electronics & Information Technology, 1982, 4(5): 312-317.
Citation:
Yin Yuan-Zhao. INCREASED GAIN OF FREE ELECTRON LASER WITH MAGNETIZED RELATIVISTIC ELECTRON BEAM[J]. Journal of Electronics & Information Technology, 1982, 4(5): 312-317.
Yin Yuan-Zhao. INCREASED GAIN OF FREE ELECTRON LASER WITH MAGNETIZED RELATIVISTIC ELECTRON BEAM[J]. Journal of Electronics & Information Technology, 1982, 4(5): 312-317.
Citation:
Yin Yuan-Zhao. INCREASED GAIN OF FREE ELECTRON LASER WITH MAGNETIZED RELATIVISTIC ELECTRON BEAM[J]. Journal of Electronics & Information Technology, 1982, 4(5): 312-317.
The stimulated Raman scattering of incident pump wave caused by a magnetized intense relativistic electron beam is analyzed theoretically. The results show that the magnetized beam can increase the gain of the free electron laser if the electron cyclotron frequency Q// in the axial static magnetic field is equal to the frequency i of the incident pump wave in the electron beam frame of reference. In this case the growth rate is i/i- Q// times of that for the unmagnetized beam.
尹元昭,激光,1979年,第5期,第1页.[2]P. Sprangle, R. A. Smith and V. L. Granatstein, Infrared and Millimeter Wave, 1(1979), 279.[4]盐沢浚之,电子通信学会论文志,J63-C (1980), 279.[5]P. Sprangle and V. L. Granatstein, Appli. Phys Lett., 25(1974), 377.
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