TUNABLE MICROWAVE TM010 MODE CAVITY OF SIMPLE CONSTRUCTION WITH IMPROVED PERFORMANCE FOR GAS BREAKDOWN AND MATERIALS INVESTIGATION.

D. Smith; L. J. Auchterlonie

doi:10.1049/ip-h-1.1982.0007

TUNABLE MICROWAVE TM₀₁₀ MODE CAVITY OF SIMPLE CONSTRUCTION WITH IMPROVED PERFORMANCE FOR GAS BREAKDOWN AND MATERIALS INVESTIGATION.

D. Smith, L. J. Auchterlonie

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

The paper describes the construction of a tunable microwave (2. 45 GHz) TM//0//1//0 mode cylindrical cavity which has improved features in the measurement of gas discharge phenomena and properties of materials. Theoretical work, supported by experiment, demonstrates that during controlled end-wall deformation tuning ranges of at least plus or minus 40 MHz are achieved, for which there is negligible change in the electric field at the cavity axis. An additional feature is that a linear law relates the deformation depth to the resulting frequency change, over the useful tuning range. The cavity can be fabricated simply, and with relaxed tolerances. Accurately made tuning stubs are not required, and their absence ensures a gas-tight structure.

Original language	English
Pages (from-to)	32-36
Number of pages	5
Journal	IEE Proceedings H: Microwaves Optics and Antennas
Volume	129
Issue number	1
DOIs	https://doi.org/10.1049/ip-h-1.1982.0007
State	Published - 1982
Externally published	Yes

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abstract = "The paper describes the construction of a tunable microwave (2. 45 GHz) TM//0//1//0 mode cylindrical cavity which has improved features in the measurement of gas discharge phenomena and properties of materials. Theoretical work, supported by experiment, demonstrates that during controlled end-wall deformation tuning ranges of at least plus or minus 40 MHz are achieved, for which there is negligible change in the electric field at the cavity axis. An additional feature is that a linear law relates the deformation depth to the resulting frequency change, over the useful tuning range. The cavity can be fabricated simply, and with relaxed tolerances. Accurately made tuning stubs are not required, and their absence ensures a gas-tight structure.",

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AB - The paper describes the construction of a tunable microwave (2. 45 GHz) TM//0//1//0 mode cylindrical cavity which has improved features in the measurement of gas discharge phenomena and properties of materials. Theoretical work, supported by experiment, demonstrates that during controlled end-wall deformation tuning ranges of at least plus or minus 40 MHz are achieved, for which there is negligible change in the electric field at the cavity axis. An additional feature is that a linear law relates the deformation depth to the resulting frequency change, over the useful tuning range. The cavity can be fabricated simply, and with relaxed tolerances. Accurately made tuning stubs are not required, and their absence ensures a gas-tight structure.

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TUNABLE MICROWAVE TM₀₁₀ MODE CAVITY OF SIMPLE CONSTRUCTION WITH IMPROVED PERFORMANCE FOR GAS BREAKDOWN AND MATERIALS INVESTIGATION.

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