Cathode Priming in the A6 Relativistic Magnetron

Summary form only given. A particle in cell code (ICEPIC) is used Io study the linear and nonlinear evolution of the magnetron instability in the A6 University of Michigan magnetron. Saturation of the instability and operating mode are examined as a function of magnetron priming geometry. Specifical...

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Hauptverfasser:	Fleming, T.P., Cartwright, K.L.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Cathodes Educational institutions Electron beams Electron tubes Magnetic resonance Q factor Resonant frequency Space charge Strips USA Councils
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creator	Fleming, T.P. Cartwright, K.L.
description	Summary form only given. A particle in cell code (ICEPIC) is used Io study the linear and nonlinear evolution of the magnetron instability in the A6 University of Michigan magnetron. Saturation of the instability and operating mode are examined as a function of magnetron priming geometry. Specifically, the question of dominant mode selection based on azimuthal variation on the emitting cathode is addressed. Moreover, the placement, area, number and emission properties of the axial emitting surface strips are examined to determine optimum start up time and noise reduction. The severity of mode competition is examined via spectral decomposition. A baseline for gauging the net effect of cathode priming is established by a comparison with a series of non-primed magnetron simulations that span the identical parameter space
doi_str_mv	10.1109/PLASMA.2005.359253
format	Conference Proceeding
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A particle in cell code (ICEPIC) is used Io study the linear and nonlinear evolution of the magnetron instability in the A6 University of Michigan magnetron. Saturation of the instability and operating mode are examined as a function of magnetron priming geometry. Specifically, the question of dominant mode selection based on azimuthal variation on the emitting cathode is addressed. Moreover, the placement, area, number and emission properties of the axial emitting surface strips are examined to determine optimum start up time and noise reduction. The severity of mode competition is examined via spectral decomposition. 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A particle in cell code (ICEPIC) is used Io study the linear and nonlinear evolution of the magnetron instability in the A6 University of Michigan magnetron. Saturation of the instability and operating mode are examined as a function of magnetron priming geometry. Specifically, the question of dominant mode selection based on azimuthal variation on the emitting cathode is addressed. Moreover, the placement, area, number and emission properties of the axial emitting surface strips are examined to determine optimum start up time and noise reduction. The severity of mode competition is examined via spectral decomposition. 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A particle in cell code (ICEPIC) is used Io study the linear and nonlinear evolution of the magnetron instability in the A6 University of Michigan magnetron. Saturation of the instability and operating mode are examined as a function of magnetron priming geometry. Specifically, the question of dominant mode selection based on azimuthal variation on the emitting cathode is addressed. Moreover, the placement, area, number and emission properties of the axial emitting surface strips are examined to determine optimum start up time and noise reduction. The severity of mode competition is examined via spectral decomposition. A baseline for gauging the net effect of cathode priming is established by a comparison with a series of non-primed magnetron simulations that span the identical parameter space</abstract><pub>IEEE</pub><doi>10.1109/PLASMA.2005.359253</doi></addata></record>
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ispartof	IEEE Conference Record - Abstracts. 2005 IEEE International Conference on Plasma Science, 2005, p.212-212
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language	eng
recordid	cdi_ieee_primary_4198512
source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Cathodes Educational institutions Electron beams Electron tubes Magnetic resonance Q factor Resonant frequency Space charge Strips USA Councils
title	Cathode Priming in the A6 Relativistic Magnetron
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