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Generation and transport of submillisecond intense electron beams in plasma cathode vacuum diodes. / Astrelin, V. T.; Kandaurov, I. V.; Vorobyov, M. S. et al.

In: Vacuum, Vol. 143, 01.09.2017, p. 495-500.

Research output: Contribution to journalArticlepeer-review

Harvard

Astrelin, VT, Kandaurov, IV, Vorobyov, MS, Koval, NN, Kurkuchekov, VV, Sulakshin, SA & Trunev, YA 2017, 'Generation and transport of submillisecond intense electron beams in plasma cathode vacuum diodes', Vacuum, vol. 143, pp. 495-500. https://doi.org/10.1016/j.vacuum.2017.03.025

APA

Astrelin, V. T., Kandaurov, I. V., Vorobyov, M. S., Koval, N. N., Kurkuchekov, V. V., Sulakshin, S. A., & Trunev, Y. A. (2017). Generation and transport of submillisecond intense electron beams in plasma cathode vacuum diodes. Vacuum, 143, 495-500. https://doi.org/10.1016/j.vacuum.2017.03.025

Vancouver

Astrelin VT, Kandaurov IV, Vorobyov MS, Koval NN, Kurkuchekov VV, Sulakshin SA et al. Generation and transport of submillisecond intense electron beams in plasma cathode vacuum diodes. Vacuum. 2017 Sept 1;143:495-500. doi: 10.1016/j.vacuum.2017.03.025

Author

Astrelin, V. T. ; Kandaurov, I. V. ; Vorobyov, M. S. et al. / Generation and transport of submillisecond intense electron beams in plasma cathode vacuum diodes. In: Vacuum. 2017 ; Vol. 143. pp. 495-500.

BibTeX

@article{5a783568e31b4f7ab3460db1be598eb4,
title = "Generation and transport of submillisecond intense electron beams in plasma cathode vacuum diodes",
abstract = "The paper reports on a comparative study of two different types of diode system for producing intense submillisecond electron beam in a source with low-pressure arc plasma emitter. The first is a planar multi-aperture diode comprising cathode and anode performed as molybdenum grids with 241 round openings of few millimeters in diameter. In the second system electrons are accelerated in a sheath between the grid-stabilized cathode plasma and the open boundary of beam-generated anode plasma. It was demonstrated in experiments that latter system should be advantageous in terms of maximally achievable beam current and total beam energy content, but there are drawbacks connected with slow anode plasma build-up that require further study.",
keywords = "Electron beam, Low-pressure arc discharge, Multi-aperture diode, Plasma anode, Plasma emitter, Vacuum diode, EMITTER, GOL-3, TRAP",
author = "Astrelin, {V. T.} and Kandaurov, {I. V.} and Vorobyov, {M. S.} and Koval, {N. N.} and Kurkuchekov, {V. V.} and Sulakshin, {S. A.} and Trunev, {Yu A.}",
year = "2017",
month = sep,
day = "1",
doi = "10.1016/j.vacuum.2017.03.025",
language = "English",
volume = "143",
pages = "495--500",
journal = "Vacuum",
issn = "0042-207X",
publisher = "Elsevier Ltd",

}

RIS

TY - JOUR

T1 - Generation and transport of submillisecond intense electron beams in plasma cathode vacuum diodes

AU - Astrelin, V. T.

AU - Kandaurov, I. V.

AU - Vorobyov, M. S.

AU - Koval, N. N.

AU - Kurkuchekov, V. V.

AU - Sulakshin, S. A.

AU - Trunev, Yu A.

PY - 2017/9/1

Y1 - 2017/9/1

N2 - The paper reports on a comparative study of two different types of diode system for producing intense submillisecond electron beam in a source with low-pressure arc plasma emitter. The first is a planar multi-aperture diode comprising cathode and anode performed as molybdenum grids with 241 round openings of few millimeters in diameter. In the second system electrons are accelerated in a sheath between the grid-stabilized cathode plasma and the open boundary of beam-generated anode plasma. It was demonstrated in experiments that latter system should be advantageous in terms of maximally achievable beam current and total beam energy content, but there are drawbacks connected with slow anode plasma build-up that require further study.

AB - The paper reports on a comparative study of two different types of diode system for producing intense submillisecond electron beam in a source with low-pressure arc plasma emitter. The first is a planar multi-aperture diode comprising cathode and anode performed as molybdenum grids with 241 round openings of few millimeters in diameter. In the second system electrons are accelerated in a sheath between the grid-stabilized cathode plasma and the open boundary of beam-generated anode plasma. It was demonstrated in experiments that latter system should be advantageous in terms of maximally achievable beam current and total beam energy content, but there are drawbacks connected with slow anode plasma build-up that require further study.

KW - Electron beam

KW - Low-pressure arc discharge

KW - Multi-aperture diode

KW - Plasma anode

KW - Plasma emitter

KW - Vacuum diode

KW - EMITTER

KW - GOL-3

KW - TRAP

UR - http://www.scopus.com/inward/record.url?scp=85017346086&partnerID=8YFLogxK

U2 - 10.1016/j.vacuum.2017.03.025

DO - 10.1016/j.vacuum.2017.03.025

M3 - Article

AN - SCOPUS:85017346086

VL - 143

SP - 495

EP - 500

JO - Vacuum

JF - Vacuum

SN - 0042-207X

ER -

ID: 10263371