Magnetron tuning using plasmas
First Claim
1. A magnetron oscillator comprising:
- a magnetron tube comprising an anode having a plurality of inwardly protruding vanes and a central cathode, and wherein a plurality of resonant cavities are formed that are bounded by gaps between ends of adjacent vanes, walls of the inwardly protruding vanes and an adjacent portion of the wall of the anode;
means for supplying a bias voltage between the anode and central cathode to create a DC electric field therebetween;
means for applying a magnetic field along an axial direction of the magnetron tube; and
one or more gas-filled subcells disposed within each of the plurality of resonant cavities; and
a plasma formed within one or more selected subcells of each cavity which is controllable to alter the electromagnetic field within each cavity to tune the oscillating frequency of the magnetron oscillator.
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Accused Products
Abstract
Improved magnetron oscillators that controllably form a plasma within each of its resonant cavities to rapidly change the resonant frequency of each cavity. The present invention also provides for frequency tuning methods for use with magnetron oscillators. The plasma is controllably formed in one or more subcells of each resonant cavity in a manner that alters the electromagnetic field within each cavity. Preferably, a magnetized collisional plasma is controlled to rapidly change the resonant frequency of each cavity. However, many types of plasmas may be used to implement the present invention. Controlling formation of the plasma within each cavity tunes the magnetron oscillator on a submillisecond time scale.
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Citations
12 Claims
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1. A magnetron oscillator comprising:
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a magnetron tube comprising an anode having a plurality of inwardly protruding vanes and a central cathode, and wherein a plurality of resonant cavities are formed that are bounded by gaps between ends of adjacent vanes, walls of the inwardly protruding vanes and an adjacent portion of the wall of the anode; means for supplying a bias voltage between the anode and central cathode to create a DC electric field therebetween; means for applying a magnetic field along an axial direction of the magnetron tube; and one or more gas-filled subcells disposed within each of the plurality of resonant cavities; and a plasma formed within one or more selected subcells of each cavity which is controllable to alter the electromagnetic field within each cavity to tune the oscillating frequency of the magnetron oscillator. - View Dependent Claims (2, 3, 4, 5, 6)
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7. In a magnetron oscillator comprising a magnetron tube having an anode with a plurality of inwardly protruding vanes and a cathode and wherein a plurality of resonant cavities are formed that are bounded by gaps between ends of adjacent vanes, walls of the inwardly protruding vanes and an adjacent portion of the wall of the anode, means for supplying a bias voltage between the anode and cathode to create a DC electric field therebetween, and means for applying a magnetic field along an axial direction of the magnetron tube, a method of frequency tuning the magnetron oscillator comprising the steps of:
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disposing one or more gas-filled subcells within each of the plurality of resonant cavities; and forming a plasma within selected subcells of each resonant cavity to alter the electromagnetic field within each cavity to tune the oscillating frequency of the magnetron oscillator. - View Dependent Claims (8, 9, 10, 11, 12)
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Specification