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Fast start of oscillations in a short-pulse relativistic magnetron driven by a transparent cathode.

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Please use this identifier to cite or link to this item: http://hdl.handle.net/1928/15427

Fast start of oscillations in a short-pulse relativistic magnetron driven by a transparent cathode.

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Title: Fast start of oscillations in a short-pulse relativistic magnetron driven by a transparent cathode.
Author: Prasad, Sarita
Advisor(s): Schamiloglu, Edl
Committee Member(s): Buchenauer, C. Jerald
Fuks, Mikhail
Gilmore, Mark
Christodoulou, Christos
Prinja, Anil
Department: University of New Mexico. Dept. of Electrical and Computer Engineering
Subject: Transparent Cathode
Relativistic Magnetron
LC Subject(s): Magnetrons--Computer simulation.
Cathodes--Computer simulation.
Degree Level: Doctoral
Abstract: The magnetron has been a major component of radar systems since its introduction in World War II. The newer radar techniques require high peak power (GW) and short microwave pulses (few ns). To serve as a microwave source for short-pulse applications it is imperative that the magnetron needs to have both fast start and fast rate of build-up of oscillations. Both of these factors are contingent on the cathode geometry. The transparent cathode was invented at the University of New Mexico in an endeavor to improve the start time and increase the rate of build-up of oscillations in short-pulse relativistic magnetrons. The construction of the transparent cathode involves the removal of longitudinal strips of material from a hollow cathode. The resultant geometry has manifold advantages the first and the foremost of which is that it makes the cathode transparent to E_theta, thereby greatly increasing its amplitude where electrons are emitted. Hence one would expect faster rate of build-up of oscillations. Secondly, this geometry simultaneously gives rise to several different forms of priming: cathode priming, electrostatic priming and magnetic priming. The number of cathode strips is chosen so that it would excite a particular mode of interest (e.g. 6 strips would favor the formation of 6 spokes). The cathode strips may be oriented azimuthally in a manner that the electron bunches from the cathode strips would be released into the favorable phase of the mode of interest where efficient exchange of energy between the electrons and the RF fields could take place. The highlights of this dissertation are proof-of-concept computer simulations demonstrating the benefits of the transparent cathode in an A6 magnetron driven by a transparent cathode that have validated the simulations.
Graduation Date: December 2010
URI: http://hdl.handle.net/1928/15427


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