Patent #6914556
Claims 1. A method of producing pulsed coherent radio frequency energy comprising: providing a resonant cavity oscillator with operating field and emission control voltages; applying a pedestal voltage pulse to the resonant cavity oscillator; applying a coherent injection signal to resonant cavity oscillator simultaneously with said pedestal voltage; and applying a drive pulse of shorter duration than said pedestal voltage pulse to the resonant cavity oscillator during the application of said pedestal voltage application such that the resonant cavity oscillator is caused to output a radio frequency energy pulse of the same duration as the drive pulse and coherent with said injection signal. 2. A method of producing pulsed coherent radio frequency energy according to claim 1 wherein said applied pedestal voltage is of a predetermined magnitude to reach the Hartree operational point of the resonant cavity oscillator. 3. A method of producing pulsed coherent radio frequency energy according to claim 1 in which the coherent injection signal is of an amplitude and frequency having a predetermined relationship to the operating output power and frequency of the resonant cavity oscillator. 4. A method of producing pulsed coherent radio frequency energy according to claim 3 in which said predetermined frequency relationship includes 200 MH frequency range bracketing the resonant frequency of the resonant cavity oscillator. 5. A method of producing pulsed coherent radio frequency energy according to claim 3 in which said predetermined amplitude relationship includes at least a forty decibel range between the injection signal and output signal taken from said resonant cavity oscillator. 6. A system for providing a short-pulse-duration pulsed radio frequency signal comprising: a resonant cavity oscillator; conditioning signal source means effectively connected to said resonant cavity oscillator for supplying a pulsed signal having a predetermined amplitude insufficient to effect significant output from said resonant cavity device, but sufficient to permit oscillations to start; an injection signal source effectively connected to said resonant cavity oscillator for supplying a radio frequency signal thereto simultaneously with said conditioning signal; and drive signal source means effectively connected to said conditioning signal source means and to said resonant cavity oscillator for applying a trigger signal thereto in synchronism with said conditioning signal said trigger signal having a fast rise time and short duration as compared with said conditioning signal. 7. A system for providing a short-duration pulsed radio frequency signal according to claim 6 in which said conditioning signal source means includes: a source of charging voltage; storage means connected to said source of charging voltage for storing electrical energy therefrom a switch connected to said storage means for selective discharge thereof; a transformer connected to said storage means so as to be in the discharge path thereof and effectively connected to said resonant cavity oscillator for transfering the discharge waveform thereto. 8. a system for providing a short-duration pulsed radio frequency signal according to claim 6 in which said injection signal source includes a coherent microwave generator. 9. A system for providing a short-duration pulsed radio frequency according to claim 8 in which said coherent microwave generator is coupled to the aforesaid resonant cavity oscillator by means of a ferrite circulator. 10. A system for providing a short-duration pulsed radio frequency signal according to claim 6 in which said drive signal source means includes a capacitor discharge circuit which is transformer coupled to the aforesaid resonant cavity oscillator. 11. A system for providing a short-duration pulsed radio frequency signal according to claim 10 further including isolation means connected to said resonant cavity oscillator and to said drive and conditioning circuits to prevent circuit interaction therebetween.