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Electron beam–electromagnetic field interaction in one-dimensional coaxial vircator

Published online by Cambridge University Press:  26 September 2005

H. SHAO ,
G. Z. LIU  and
Z. F. YANG
H. SHAO
Affiliation:
Northwest Institute of Nuclear Technology, PO Box 69-13, Xi'an, 710024, P. R. China (shaohao@nint.ac.cn)
G. Z. LIU
Affiliation:
Northwest Institute of Nuclear Technology, PO Box 69-13, Xi'an, 710024, P. R. China (shaohao@nint.ac.cn)
Z. F. YANG
Affiliation:
Northwest Institute of Nuclear Technology, PO Box 69-13, Xi'an, 710024, P. R. China (shaohao@nint.ac.cn)
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Abstract

A one-dimensional model of the interaction between an injected electron beam and an electromagnetic (EM) field inside a coaxial vircator is presented. The effects of the injected electron beam energy spread, anode absorption rate, feedback and injected current premodulation are analyzed. The EM-gains of interaction between the electron beam and TM01, TE11 modes are derived and discussed.

Type
Papers
Information
Journal of Plasma Physics , Volume 71 , Issue 5 , October 2005 , pp. 563 - 578
Copyright
2005 Cambridge University Press

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