Long pulse (>1 μsec) field emission electron gun with stable cross section for HPM sources

O. Loza; P. Strelkov; I. Ivanov; Y. Carmel; J. Rodgers; T. Antonsen; V. L. Granatstein

Long pulse (>1 μsec) field emission electron gun with stable cross section for HPM sources

O. Loza, P. Strelkov, I. Ivanov, Y. Carmel, J. Rodgers, T. Antonsen, V. L. Granatstein

Research output: Contribution to journal › Conference article › peer-review

Abstract

Field emission guns, such as those used in many HPM devices, are effected by the plasma formed on both the cathode and anode surfaces by the high voltage pulse. Both the gun impedance and the electron beam cross-section change during the pulse because the plasma rapidly expands (>2 mm/μsec). This may reduces the beam-wave interaction efficiency since the beam is no longer at the correct position for optimum rf interaction, and may lead to beam interception and early termination of the microwave pulse. Intense, relativistic, long pulse electron guns designed to minimize these effects is therefore a major issue in the development of long pulse HPM sources. We report the results of a foil-less, long pulse (1 μsec), relativistic field emission gun with a stable beam cross section. The gun is immersed in a magnetic field of unique geometry. The figure demonstrates the temporal stability of the beam cross section by showing the radial distribution of the electron beam current density J(r) [kA/cm²] vs. time [nsec].

Original language	English
Pages (from-to)	229
Number of pages	1
Journal	IEEE International Conference on Plasma Science
State	Published - 1 Dec 1999
Externally published	Yes
Event	The 26th IEEE International Conference on Plasma Science (ICOPS99) - Monterey, CA, USA Duration: 20 Jun 1999 → 24 Jun 1999

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Condensed Matter Physics
Electrical and Electronic Engineering

Cite this

@article{1914a1204b6840a1821ce75373e7ff4c,

title = "Long pulse (>1 μsec) field emission electron gun with stable cross section for HPM sources",

abstract = "Field emission guns, such as those used in many HPM devices, are effected by the plasma formed on both the cathode and anode surfaces by the high voltage pulse. Both the gun impedance and the electron beam cross-section change during the pulse because the plasma rapidly expands (>2 mm/μsec). This may reduces the beam-wave interaction efficiency since the beam is no longer at the correct position for optimum rf interaction, and may lead to beam interception and early termination of the microwave pulse. Intense, relativistic, long pulse electron guns designed to minimize these effects is therefore a major issue in the development of long pulse HPM sources. We report the results of a foil-less, long pulse (1 μsec), relativistic field emission gun with a stable beam cross section. The gun is immersed in a magnetic field of unique geometry. The figure demonstrates the temporal stability of the beam cross section by showing the radial distribution of the electron beam current density J(r) [kA/cm2] vs. time [nsec].",

author = "O. Loza and P. Strelkov and I. Ivanov and Y. Carmel and J. Rodgers and T. Antonsen and Granatstein, {V. L.}",

year = "1999",

month = dec,

day = "1",

language = "English",

pages = "229",

journal = "IEEE International Conference on Plasma Science",

issn = "0730-9244",

publisher = "Institute of Electrical and Electronics Engineers",

note = "The 26th IEEE International Conference on Plasma Science (ICOPS99) ; Conference date: 20-06-1999 Through 24-06-1999",

}

TY - JOUR

T1 - Long pulse (>1 μsec) field emission electron gun with stable cross section for HPM sources

AU - Loza, O.

AU - Strelkov, P.

AU - Ivanov, I.

AU - Carmel, Y.

AU - Rodgers, J.

AU - Antonsen, T.

AU - Granatstein, V. L.

PY - 1999/12/1

Y1 - 1999/12/1

N2 - Field emission guns, such as those used in many HPM devices, are effected by the plasma formed on both the cathode and anode surfaces by the high voltage pulse. Both the gun impedance and the electron beam cross-section change during the pulse because the plasma rapidly expands (>2 mm/μsec). This may reduces the beam-wave interaction efficiency since the beam is no longer at the correct position for optimum rf interaction, and may lead to beam interception and early termination of the microwave pulse. Intense, relativistic, long pulse electron guns designed to minimize these effects is therefore a major issue in the development of long pulse HPM sources. We report the results of a foil-less, long pulse (1 μsec), relativistic field emission gun with a stable beam cross section. The gun is immersed in a magnetic field of unique geometry. The figure demonstrates the temporal stability of the beam cross section by showing the radial distribution of the electron beam current density J(r) [kA/cm2] vs. time [nsec].

AB - Field emission guns, such as those used in many HPM devices, are effected by the plasma formed on both the cathode and anode surfaces by the high voltage pulse. Both the gun impedance and the electron beam cross-section change during the pulse because the plasma rapidly expands (>2 mm/μsec). This may reduces the beam-wave interaction efficiency since the beam is no longer at the correct position for optimum rf interaction, and may lead to beam interception and early termination of the microwave pulse. Intense, relativistic, long pulse electron guns designed to minimize these effects is therefore a major issue in the development of long pulse HPM sources. We report the results of a foil-less, long pulse (1 μsec), relativistic field emission gun with a stable beam cross section. The gun is immersed in a magnetic field of unique geometry. The figure demonstrates the temporal stability of the beam cross section by showing the radial distribution of the electron beam current density J(r) [kA/cm2] vs. time [nsec].

UR - http://www.scopus.com/inward/record.url?scp=0033347452&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:0033347452

SN - 0730-9244

SP - 229

JO - IEEE International Conference on Plasma Science

JF - IEEE International Conference on Plasma Science

T2 - The 26th IEEE International Conference on Plasma Science (ICOPS99)

Y2 - 20 June 1999 through 24 June 1999

ER -

Long pulse (>1 μsec) field emission electron gun with stable cross section for HPM sources

Abstract

ASJC Scopus subject areas

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