Study of Determination of Microwave Dielectric Properties Based on Resonance Cavity Perturbation Method

Guang Yu Li; Hong Min Gao; Xiang Zhi Yu; Yuan Chun Fei

doi:10.4028/www.scientific.net/AMM.347-350.241

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 347-350Study of Determination of Microwave Dielectric...

Study of Determination of Microwave Dielectric Properties Based on Resonance Cavity Perturbation Method

Abstract:

For the study of effects of perturbation, such as the change in the resonant frequency and in the other parameters of a rectangular cavity, the resonance condition, the resonant wavelength and the resonant frequency are analyzed in this paper, with the help of perturbation method in a resonance cavity of the reflection type. The relation is deduced in detail under two suppose conditions, which is between the resonant frequency and the dielectric constant or the permeability of the medium filled in the cavity. The accurate relation between the changes in the resonant frequency and in the dielectric constant or the permeability is established. This paper provides the scientific basis for research on the intrinsic characteristic of medium.

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Periodical:

Applied Mechanics and Materials (Volumes 347-350)

Pages:

241-247

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.347-350.241

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Online since:

August 2013

Authors:

Guang Yu Li, Hong Min Gao, Xiang Zhi Yu, Yuan Chun Fei

Keywords:

Cavity, Dielectric, Perturbation, Rectangular Waveguide, Resonant Frequency

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References

[1] ZHANG Shu-e, LI Shu-yi: Design and implement of microwave resonator cavity for wetness measurement. International Electronic Elements., 2008, 11(5), P. 124.

Google Scholar

[2] ZHANG Shu-e, ZHAO Jun-chao, LI Yong-qian, XIONG Hua: Method for Air Humidity Measurement Based on Microwave Resonant Cavity. Proceedings of the CSEE. 2008, 1( 5): P. 192.

Google Scholar

[3] JIANG Yu, DING Xue-mei, YANG Guo-hui: Moisture Sensor Based on Microwave Resonant. Instrument Technique and Sensor, 2006, 50(30): P. 196.

Google Scholar

[4] ZHANG Xufeng, LIU Yu, ZHANG Ting: The Realization of Real-Time Measurement System for the Resonant Frequency of Microwave Cavity. Chinese Journal of Sensors and Actuators, 2009, 10(20): P. 174.

Google Scholar

[5] Akyel, C. Bosisio, R.G. April, Georges-Emile: An Active Frequency Technique for Precise Measurements on Dynamic Microwave Cavity Perturbations. Instrumentation and Measurement, IEEE Transactions on, 1978, 27( 4): 364 - 368.

DOI: 10.1109/tim.1978.4314713

Google Scholar

[6] Goh, J.H. Korostynska, O. Mason, A. Al-Shamma'a, A. I: Investigating water holding capacity (WHC) of meat using microwave spectroscopy. Sensing Technology (ICST), 2012 Sixth International Conference on, On page(s): 243 - 247.

DOI: 10.1109/icsenst.2012.6461680

Google Scholar

[7] Goh, J.H. Mason, A. Al-Shamma'a, A.I. Wylie, S.R. Field, M. Browning, P: Lactate detection using a microwave cavity sensor for biomedical applications. Sensing Technology (ICST), 2011 Fifth International Conference on, On page(s): 436 - 441.

DOI: 10.1109/icsenst.2011.6137016

Google Scholar

[8] A. K. Fung: Microwave Scattering and Emission Models and Their Applications. London: Artech House, (1994).

Google Scholar

[9] V. rokhlin: Rapid solution of integral equations of scattering theory in two dimensions. Joural Computational Physics, 1990, 36(2): 414-439.

DOI: 10.1016/0021-9991(90)90107-c

Google Scholar

[10] M. R. Hestenes, and E. Stiefel: Method of conjugate gradients for solving linear systems. J Res Natl Bur Stand, 1952, 49( 2): 406-439.

DOI: 10.6028/jres.049.044

Google Scholar