年間 12 号発行
ISSN 印刷: 0040-2508
ISSN オンライン: 1943-6009
Indexed in
WGM DIELECTRIC RESONATOR WITH CAPILLARY FOR MICROWAVE CHARACTERIZATION OF LIQUIDS
要約
The microwave characterization technique for the investigation of liquids of small volumes is presented. The technique is developed on the basis of a high-quality whispering gallery mode quartz resonator with a capillary placed in the hole of the resonator in the axial direction. The optimal inner capillary diameter was determined by experimental data obtained in Ka-band for the aqueous solution of glucose filling. The measurements of the bovine serum albumin and lactalbumin solutions confirm the applicability of the technique for studies of the biological liquids.
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Gubin, A.I., Barannik, A.A., Protsenko, I.A., Cherpak, N.T., Offenhaeusser, A., and Vitusevich, S., (2013) Biochemical liquids permittivity characterization technique based on whispering-gallery mode resonator with the microfluidic channel, Proc. of the 43rd European Microwave Conference EuMC'13, pp. 314-317.
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Gubin, A.I., Barannik, A.A., Cherpak, N.T., Protsenko, I.A., Offenhaeusser, A., and Vitusevich, S., (2015) Whispering-gallery-mode resonator technique with microfluidic channel for permittivity measurement of liquids, IEEE Trans. Microw. Theory Techn., 63, pp. 2003-2009.
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Gubin, A.I., Barannik, A.A., Cherpak, N.T., Vitusevich, S., Offenhaeusser, A., and Klein, N., (2011) Whispering-gallery mode resonator technique for characterization of small volumes of biochemical liquids in the microfluidic channel, Proc. of 41th European Microwave Conference EuMC'11, pp.615-618.
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Gubin, A.I., Protsenko, I.A., Barannik, A.A., Hlukhova, H., Cherpak, N.T., and Vitusevich, S., (2018) Liquids Microwave Characterization Technique Based on Quartz WGM Resonator with Microfluidic Chip, Proc. of the 48th European Microwave Conference EuMC'18, pp. 206-209.
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Gubin Alexey I., Protsenko Irina A., Barannik Alexander A., Cherpak Nickolay T., Vitusevich Svetlana A., Single Whispering-Gallery-Mode Resonator With Microfluidic Chip as a Basis for Multifrequency Microwave Permittivity Measurement of Liquids, IEEE Transactions on Microwave Theory and Techniques, 70, 6, 2022. Crossref