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access icon free Evaluation of RF micro-discharge regimes in performance of evanescent-mode cavity resonators

© The Institution of Engineering and Technology
Received 15/05/2014, Published 06/08/2014

RF gas breakdown in small gaps is a primary limiting factor in the power handling of heavily loaded cavity-based resonators. The effects of different RF micro-discharge regimes in the performance of these resonators are studied. Specifically, two resonators at 1 and 50 GHz with the same critical gap size of 19 μm which are, respectively, working in the RF boundary and diffusion-controlled regimes are considered. By combining plasma and electromagnetic simulations, the effects of high power gas breakdown in the performance of these resonators are compared. A sensitivity analysis on the effects of microscopic plasma parameters is also performed.

Inspec keywords: high-frequency discharges; microwave resonators; cavity resonators; UHF resonators

Other keywords: microscopic plasma parameters; frequency 1 GHz; electromagnetic simulations; diffusion-controlled regimes; heavily loaded cavity-based resonators; size 19 mum; RF microdischarge evaluation; RF gas breakdown; high power gas breakdown; RF boundary; plasma simulations; evanescent-mode cavity resonators; frequency 50 GHz

Subjects: Gas discharges; Waveguide and microwave transmission line components

References

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      • 5. Lieberman, M.A.,, Lichtenberg, A.J.: ‘Principle of plasma discharge and materials processing’ (J. Wiley & Son, New York, 2005).
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http://iet.metastore.ingenta.com/content/journals/10.1049/el.2014.1790
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