Stimulated Generation of Magnetrons powered below the Self-Excitation Threshold Voltage
G. Kazakevich, R.P. Johnson, T. Khabiboulline, V. Lebedev, G. Romanov,, V. Yakovlev

TL;DR
This paper presents a novel technique for stable, efficient, and controllable magnetron operation below the self-excitation threshold, promising cost-effective RF sources for superconducting accelerators.
Contribution
It introduces an innovative method for stimulated magnetron generation below the self-excitation threshold, supported by a kinetic model and experimental validation.
Findings
Stable operation below self-excitation threshold achieved
Higher efficiency and controllability demonstrated
Potential for cost reduction in RF sources for accelerators
Abstract
Modern CW or pulsed superconducting accelerators of megawatts beams require efficient RF sources controllable in phase and power. It is desirable to have an individual RF power source with power up to hundreds of kW for each Superconductive RF (SRF) cavity. For pulsed accelerators the pulse duration in millisecond range is required. The efficiency of the traditional RF sources (klystrons, IOTs, solid-state amplifiers) in comparison to magnetrons is lower and the cost of unit of RF power is significantly higher. Typically, the cost of RF sources and their operation is a significant part of the total project cost and operation. The magnetron-based RF sources with a cost of power unit of 1-3 dollars per Watt would significantly reduce the capital and operation costs in comparison with the traditional RF sources. This arouses interest in magnetron RF sources for use in modern accelerators.…
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Taxonomy
TopicsGyrotron and Vacuum Electronics Research · Particle accelerators and beam dynamics · Superconducting Materials and Applications
