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电信和无线电工程
SJR: 0.202 SNIP: 0.2 CiteScore™: 0.23

ISSN 打印: 0040-2508
ISSN 在线: 1943-6009

卷:
卷 78, 2019 卷 77, 2018 卷 76, 2017 卷 75, 2016 卷 74, 2015 卷 73, 2014 卷 72, 2013 卷 71, 2012 卷 70, 2011 卷 69, 2010 卷 68, 2009 卷 67, 2008 卷 66, 2007 卷 65, 2006 卷 64, 2005 卷 63, 2005 卷 62, 2004 卷 61, 2004 卷 60, 2003 卷 59, 2003 卷 58, 2002 卷 57, 2002 卷 56, 2001 卷 55, 2001 卷 54, 2000 卷 53, 1999 卷 52, 1998 卷 51, 1997

电信和无线电工程

DOI: 10.1615/TelecomRadEng.v78.i11.20
pages 939-947

SENSOR FOR MEASURING THE PERMITTIVITY OF SOLID AND GASEOUS SUBSTANCES ON THE BASIS OF A FABRY- PEROT RESONATOR WITH EVANESCENT HOLES IN THE MIRRORS

A. V. Gribovsky
Institute of Radio Astronomy, National Academy of Sciences of Ukraine, 4 Mystetstv St., Kharkiv 61002, Ukraine

ABSTRACT

The paper suggests a design of a sensor for measuring and monitoring the permittivity of solid and gaseous substances. The sensor is based on a Fabry-Perot resonator with evanescent rectangular holes in its mirrors. Numerical simulations of the characteristic of the sensor with a dielectric plate and that placed in a gaseous medium demonstrate a possibility of high precision measurements of the dielectric constant of solid and gaseous substances within a wide frequency range

REFERENCES

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  2. Yegorov, V.N., (2007) Resonance method of investigating dielectrics at microwaves: A review, Pribory and Tekhnika Eksperimenta, 2, pp. 5-38, (in Russian).

  3. Chernikov, A.D. and Kundenko, N.P., (2012) An analysis of resonance systems for measuring electrophysical parameters of substances, Energosberezhenie. Energetika. Energoaudit, 3(97), pp. 56-62, (in Russian).

  4. Zwick, T., Chandrasekhar, A., Baks, C.W., Pfeiffer, U.R. et al., (2006) Determination of the Complex Permittivity of Packaging Materials at Millimeter-Wave Frequencies, IEEE Transactions on Microwave Theory and Techniques, 54(3), pp. 1001-1010.

  5. Gui, Y., Dou, W., and Yin, K., (2009) Open Resonator Technique of Non-Planar Dielectric Objects at Millimeter Wavelengths, Progress in Electromagnetics Research M, 9, pp. 185-197.

  6. Dudorov, S.N., Lioubtchenko, D.V., Mallat, J.A., and Raisanen, A.V., (2005) Millimeter-Wave Permittivity Measurement of Deposited Dielectric Films Using the Spherical Open Resonator, IEEE Microwave and Wireless Components Letters, 15(9), pp. 564-566.

  7. Tarasova, G.V. and Tyutyunnik, V.V., (2006) Molecular-optic monitoring of emergency situations associated with accidental effluence of explosive gases, Problemy Nadzvychaynykh Situatsiy, Proceedings of ACZ of Ukraine, Kharkiv, Ukraine: Folio Publ., (in Russian).

  8. Gribovsky, A.V. and Kuzmichev, I.K., (2016) A Fabry-Perot resonator formed by two screens with rectangular holes, Radiofizika and Radioastronomiya, 21(1), pp. 58-64, (in Russian).

  9. Gribovsky, A.V., (2017) A Quasi-Periodic Sequence of the Fabry-Perot Resonators on the Basis of Planar Screens of Finite Thickness with Rectangular Holes, Telecommunications and Radio Engineering, 76(16), pp. 1417-1422.

  10. Gribovsky, A.V., Prosvirnin, S.L., and Reznik, I.I., (1997) Reflected phased antenna array of rectangular waveguides of finite length, Radiofizika and Radioastronomia, 2(1), pp. 52-60, (in Russian).

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