High power microwave generation and beam transport in the PASOTRON/sup TM/ BWO source

High power microwave generation and beam transport in the PASOTRON/sup TM/ BWO source

Summary form only given, as follows. The PASOTRON/sup TM/ high-power microwave source utilizes a unique plasma-cathode electron gun and self-generated plasma channel to inject a long-pulse electron beam into a slow-wave structure for microwave generation. The plasma-channel beam transport eliminates...

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Bibliographic Details
Published in:IEEE Conference Record - Abstracts. 1997 IEEE International Conference on Plasma Science p. 298
Main Authors: Goebel, D.M., Feicht, J., Ponti, E.S., Watkins, R.
Format: Conference Proceeding
Language:English
Published: IEEE 1997
Subjects:
Electron beams
High power microwave generation
Magnetic fields
Microwave generation
Particle beams
Plasma confinement
Plasma density
Plasma diagnostics
Plasma sources
Plasma transport processes
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Summary:Summary form only given, as follows. The PASOTRON/sup TM/ high-power microwave source utilizes a unique plasma-cathode electron gun and self-generated plasma channel to inject a long-pulse electron beam into a slow-wave structure for microwave generation. The plasma-channel beam transport eliminates the need for an externally-applied axial magnetic field to confine the beam, which results in a very compact low weight HPM source compared to conventional technologies. The PASOTRON/sup TM/ is normally configured as a backward-wave oscillator (BWO), and has produced over 10-MW of peak power and /spl ges/500 Joules per pulse. We will present the operation of the PASOTRON/sup TM/ device for a variety of rippled-wall and helix slow-wave structures. The physics of the plasma channel formation and beam focusing has been studied and a computer model of this process has evolved. A diagnostic tube with two rows of probes extending down the length of the tube at 90/spl deg/ to each other has been used to examine the radial profile of the beam as it propagates as a function of time and axial distance. The dynamics of the plasma channel formation and the plasma density over time will be presented and compared to the model.
ISBN:0780339908
9780780339903
ISSN:0730-9244
2576-7208
DOI:10.1109/PLASMA.1997.605112