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On the current of an annular electron beam with a virtual cathode in a drift tube

Published online by Cambridge University Press:  25 March 2004

S.YA. BELOMYTTSEV
Affiliation:
Institute of High Current Electronics, Tomsk, Russia
A.A. GRISHKOV
Affiliation:
Institute of High Current Electronics, Tomsk, Russia
S.D. KOROVIN
Affiliation:
Institute of High Current Electronics, Tomsk, Russia
V.V. RYZHOV
Affiliation:
Institute of High Current Electronics, Tomsk, Russia

Abstract

It is shown that beyond a virtual cathode the current of a magnetized steady-state thin annular electron beam in a drift tube may range from zero to the limiting current of the tube.

Type
Research Article
Copyright
© 2003 Cambridge University Press

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References

REFERENCES

Dubinov, A.E. & Efimova, I.E. (2001). Dynamic of magnetic insulated relativistic electron beam with virtual cathode in compound drift tube. Zhur. Tekh. Fiz. 71, 8086.Google Scholar
Fedosov, A.I., Litvinov, E.A., Belomyttsev, S.Ya. & Bugaev, S.P. (1977). Calculation of electron beam characteristics obtained in magnetic insulated diode. Izv. Vyssh. Ucheb. Zaved. Fizika, No. 10, 134135.
Kitsanov, S.A., Klimov, A.I., Korovin, S.D., Kurkan, I.K., Pegel, I.V. & Polevin, S.D. (2002). A vircator with electron beam premodulation based on high-current repetitively pulsed accelerator. IEEE Trans. Plasma Sci. 30, 274285.Google Scholar
Kovalev, N.F. (2002). About steady states of electron beams in drift area. Zhur. Tekh. Fiz. 72, 113116.Google Scholar
Landau, L.D. & Lifshits, E.M. (1973). Field theory. Moscow: Science.
Tarakanov, V.P. (1992). User's Manual for Code KARAT. Springfield: BRA.