Development of a long-pulse 1. 3 GHz relativistic klystron amplifier

In this paper, a research approach is described for obtaining kilojoule microwave pulses of microsecond duration at 1.3 GHz from the relativistic klystron amplifier. Achieving kilojoule microwave pulses requires extending electron beam pulse durations and maximizing the microwave extraction efficien...

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Veröffentlicht in:	IEEE transactions on plasma science 1992-06, Vol.20:3
Hauptverfasser:	Rickel, D.G., Carlsten, B.E., Fazio, M.V., Faehl, R.J., Kwan, T.J.T., Stringfield, R.M., Wasierski, R.F.
Format:	Artikel
Sprache:	eng
Schlagworte:	426000 - Engineering- Components, Electron Devices & Circuits- (1990-) 440800 - Miscellaneous Instrumentation- (1990-) AMPLIFIERS BEAMS CAVITIES EFFICIENCY ELECTRON BEAMS ELECTRON TUBES ELECTRONIC CIRCUITS ELECTRONIC EQUIPMENT ENERGY RANGE ENGINEERING FABRICATION FREQUENCY RANGE GHZ RANGE GHZ RANGE 01-100 KLYSTRONS LEPTON BEAMS MICROWAVE EQUIPMENT MICROWAVE TUBES OTHER INSTRUMENTATION PARTICLE BEAMS PULSES RELATIVISTIC RANGE SIMULATION
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container_title	IEEE transactions on plasma science
container_volume	20:3
creator	Rickel, D.G. Carlsten, B.E. Fazio, M.V. Faehl, R.J. Kwan, T.J.T. Stringfield, R.M. Wasierski, R.F.
description	In this paper, a research approach is described for obtaining kilojoule microwave pulses of microsecond duration at 1.3 GHz from the relativistic klystron amplifier. Achieving kilojoule microwave pulses requires extending electron beam pulse durations and maximizing the microwave extraction efficiency at the fundamental frequency. An electron beam diode has been constructed that delivers peak currents in excess of 5 kA with a monotonically increasing current pulse exceeding durations of 1 {mu}s at beam kinetic energies above 400 keV. Close attention has been given to minimizing the current losses from the diode. Maximum microwave extraction efficiency at the fundamental frequency has been related to the beam bunching amplitude and output cavity shunt impedance in terms of a simple circuit theory. The circuit theory predictions have been tested by particle-in-cell code calculations of the electron beam interactions with the proposed cavity structures. The successful cavity structures have been constructed and are awaiting testing.
doi_str_mv	10.1109/27.142839
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subjects	426000 - Engineering- Components, Electron Devices & Circuits- (1990-) 440800 - Miscellaneous Instrumentation- (1990-) AMPLIFIERS BEAMS CAVITIES EFFICIENCY ELECTRON BEAMS ELECTRON TUBES ELECTRONIC CIRCUITS ELECTRONIC EQUIPMENT ENERGY RANGE ENGINEERING FABRICATION FREQUENCY RANGE GHZ RANGE GHZ RANGE 01-100 KLYSTRONS LEPTON BEAMS MICROWAVE EQUIPMENT MICROWAVE TUBES OTHER INSTRUMENTATION PARTICLE BEAMS PULSES RELATIVISTIC RANGE SIMULATION
title	Development of a long-pulse 1. 3 GHz relativistic klystron amplifier
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