Effect of the magnetic field of current branching-off systems on an electron beam motion

Abstract

The beam forming with necessary parameters is one of the most important problems at electron beams applying in the technologic aims (the material processing) and electromagnetic radiation generation. The essential effect on this process can have the magnetic field of the branching-off systems suchlike a collector or an anode-grid (systems with a virtual cathode). In this paper the results of theoretical investigations of influence magnetic field of current branching-off systems on electron flow movement are represented. Investigation was carry our on example of two most typical devices: triode with virtual cathode, where current branching-off system is grid anode, and gas-filled systems of electron beam transporting to current-conducting target with shunt.

Original language	English
Title of host publication	15th International Conference on High-Power Particle Beams - Proceedings, BEAMS-2004
Pages	63-66
Number of pages	4
Publication status	Published - 2004
Event	15th International Conference on High-Power Particle Beams, BEAMS-2004 - St. Petersburg, Russian Federation Duration: 18 Jul 2004 → 23 Jul 2004

Other

Other	15th International Conference on High-Power Particle Beams, BEAMS-2004
Country	Russian Federation
City	St. Petersburg
Period	18.7.04 → 23.7.04

ASJC Scopus subject areas

Nuclear and High Energy Physics

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Grigoriev, V. P., Koval, T. V., & Kozlovskih, A. V. (2004). Effect of the magnetic field of current branching-off systems on an electron beam motion. In 15th International Conference on High-Power Particle Beams - Proceedings, BEAMS-2004 (pp. 63-66). [6220487]

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abstract = "The beam forming with necessary parameters is one of the most important problems at electron beams applying in the technologic aims (the material processing) and electromagnetic radiation generation. The essential effect on this process can have the magnetic field of the branching-off systems suchlike a collector or an anode-grid (systems with a virtual cathode). In this paper the results of theoretical investigations of influence magnetic field of current branching-off systems on electron flow movement are represented. Investigation was carry our on example of two most typical devices: triode with virtual cathode, where current branching-off system is grid anode, and gas-filled systems of electron beam transporting to current-conducting target with shunt.",

author = "Grigoriev, {Vladimir P.} and Koval, {Tamara V.} and Kozlovskih, {Alexandr V.}",

year = "2004",

language = "English",

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pages = "63--66",

booktitle = "15th International Conference on High-Power Particle Beams - Proceedings, BEAMS-2004",

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N2 - The beam forming with necessary parameters is one of the most important problems at electron beams applying in the technologic aims (the material processing) and electromagnetic radiation generation. The essential effect on this process can have the magnetic field of the branching-off systems suchlike a collector or an anode-grid (systems with a virtual cathode). In this paper the results of theoretical investigations of influence magnetic field of current branching-off systems on electron flow movement are represented. Investigation was carry our on example of two most typical devices: triode with virtual cathode, where current branching-off system is grid anode, and gas-filled systems of electron beam transporting to current-conducting target with shunt.

AB - The beam forming with necessary parameters is one of the most important problems at electron beams applying in the technologic aims (the material processing) and electromagnetic radiation generation. The essential effect on this process can have the magnetic field of the branching-off systems suchlike a collector or an anode-grid (systems with a virtual cathode). In this paper the results of theoretical investigations of influence magnetic field of current branching-off systems on electron flow movement are represented. Investigation was carry our on example of two most typical devices: triode with virtual cathode, where current branching-off system is grid anode, and gas-filled systems of electron beam transporting to current-conducting target with shunt.

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