2014 20th International Conference on Microwaves, Radar and Wireless Communications (MIKON) 2014
DOI: 10.1109/mikon.2014.6899840
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WGM resonator-based measurement technique for weakly and highly absorbing substances

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Cited by 2 publications
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“…In this case, a problem has to be solved considering the following conditions [46]: (i) measurement of Z s (at least, R s ) without calibration procedure, (ii) large area of unpatterned films with acceptable limitations of linear dimensions in the a-b plane of the sample, (iii) small splitting of the resonance line obstructing the accurate measurement of the resonator Q-factor in the case of using the known technique, (iv) control of coupling the resonator with feeder transmission lines in the process of cryogenic cooling of the resonator with a sample, and (v) minimization of radiation losses. For Z s measurement without a calibration procedure, it is necessary to find an analytical solution to the electrodynamic problem of WGM resonators with the sample under test.…”
Section: ) Large-area Thin Filmsmentioning
confidence: 99%
“…In this case, a problem has to be solved considering the following conditions [46]: (i) measurement of Z s (at least, R s ) without calibration procedure, (ii) large area of unpatterned films with acceptable limitations of linear dimensions in the a-b plane of the sample, (iii) small splitting of the resonance line obstructing the accurate measurement of the resonator Q-factor in the case of using the known technique, (iv) control of coupling the resonator with feeder transmission lines in the process of cryogenic cooling of the resonator with a sample, and (v) minimization of radiation losses. For Z s measurement without a calibration procedure, it is necessary to find an analytical solution to the electrodynamic problem of WGM resonators with the sample under test.…”
Section: ) Large-area Thin Filmsmentioning
confidence: 99%