350 rub
Journal Radioengineering №10 for 2014 г.
Article in number:
Development and modeling of 2D periodic structures for narrowband filtering of signals
Authors:
V.P. Meshchanov - Dr. Sc. (Eng.), Director of NIKA-Microwave, Ltd. E-mail: nika373@bk.ru
S.А. Alaverdyan - Ph.D. (Eng.), Head of Department, Central Institute of Measuring Equipment. E-mail: asinok@gmail.com
I.N. Kabanov - Ph.D. (Eng.), Head of Department, Mytishchinskiy Scientific-Research Institute of Radio Measuring Instruments. Е- mail: mr.kin63@mail.ru
V.V. Komarov - Dr. Sc. (Eng.), Professor, Saratov State Technical University named after Gagarin Yu.A. E mail: vyacheslav.komarov@gmail.com
S.А. Alaverdyan - Ph.D. (Eng.), Head of Department, Central Institute of Measuring Equipment. E-mail: asinok@gmail.com
I.N. Kabanov - Ph.D. (Eng.), Head of Department, Mytishchinskiy Scientific-Research Institute of Radio Measuring Instruments. Е- mail: mr.kin63@mail.ru
V.V. Komarov - Dr. Sc. (Eng.), Professor, Saratov State Technical University named after Gagarin Yu.A. E mail: vyacheslav.komarov@gmail.com
Abstract:
Today two-dimensional periodic structures, called frequency-selective surfaces (FSS), find wide spread in different microwave and terahertz systems of electromagnetic signals parameters control. One of such structures, made by using the jet etching technology, which is the thin metallic screen with cross-shaped periodic holes, is considered in the present paper. The three-dimensional numerical model based on the finite-difference time-domain (FDTD) method allowing carrying out not only the analysis but the optimization of FSS parameters has been built to investigate its electrodynamic characteristics. Two most important parameters: transmission coefficient and band pass were calculated in W-range. Polynomial expressions for approximate estimation of the resonant wave lengths of the FSS under study have been obtained with the help of another model based on the finite element method (FEM). The influence of aperture elements sizes and electro-physical properties on FSS transmission characteristics is found. Obtained data have been utilized for development of ultra-narrowband filters with the central frequency of 90 GHz.
Pages: 9-12
References
- Jarry P., Beneat J.N. Advanced design techniques and realization of microwave and RF filters. New York: Wiley, 2007.
- Hao Z.-C., Hong J.-S. Ultrawideband filter technologies // IEEE Microwave Magazine. 2010. Vol. 11, No. 4. P. 56-68.
- Hejazi Z.M. EM full-wave analysis and testing of novel quasi-elliptic microstrip filters for ultra narrowband filter design // Progress in Electromagnetic Research. 2008. Vol. 85. P. 261-288.
- Esfeh B.K., Ismail A., Abdullah R.S., Adam H., Alhawari A.R. Compact narrowband bandpass filters using dual-mode octagonal meandered loop resonator for WiMax applications // Progress in Electromagnetic Research B. 2009. Vol. 16. P. 277-290.
- Jaimes A., Llamas-Garro I. Coaxial narrowband filters using a versatile suspended resonator // Progress in Electromagnetic Research. 2011. Vol. 115. P. 79-94.
- Samaddar P., De S., Sarkar S., Biswas S., Sarkar D.C., Sarkar P.P. Study on dual band frequency selective surface for different incident angles // International Journal of Soft Computing and Engineering. 2013. Vol. 2, No. 6. P. 340-342.
- Lomakin V., Li S., Michielssen E. Transmission through and wave guidance on metal plates perforated by periodic arrays of through-holes of subwavelength coaxial cross-section // Microwave and Optical Technology Letters. 2007. Vol. 49, No. 7. P. 1554-1558.
- Porterfield D.W., Hesler J.L., Densing R., Mueller E.R., Crowe T.W., Weikle R.M. Resonant metal-mesh bandpass filters for the far infrared // Applied Optics. 1994. Vol. 33, No. 25. P. 6046-6052.
- Vegesna S., Zhu Y., Bernussi A., Saed M. Terahertz two-layer frequency selective surfaces with improved transmission characteristics // IEEE Transactions on Terahertz Science and Technology. 2012. Vol. 2, No. 4. P. 441-448.
- Ustroistva polyarizatsii radiovoln v teragertsovom diapazone chastot / Ed. A.S. Yakunin. Moscow: Radiotekhnika, 2012. 256 p. (in Russian)
- Alaverdyan S.A., Bokov S.I., Zaitsev N.A., Isayev V.M., Kabanov I.N., Krenitskii A.P., Meshchanov V.P. Setochnye struktury polyarizatsii elektromagnitnykh voln v teragertsovom diapazone chastot // Elektromagnitnye volny i elektronnye sistemy. 2012. Vol. 17, No. 12. P. 47-50. (in Russian)
- Gwarek W.K., Celuch-Marcysiak M. Wide-band S-parameters extraction from FDTD simulations for propagating and evanescent modes in inhomogeneous guides // IEEE Transactions on Microwave Theory and Techniques. 2003. V. 51, No. 8. P. 1920-1928.
- Brovko A.V., Manenkov A.B., Manenkov S.A. Difraktsiya napravlyaemoi mody dielektricheskogo volnovoda // Izvestiya VUZov. Radiofizika. 2004. Vol. 47, No. 1. P.53-58. (in Russian)
- Wongkasen N., Akyurtlu A. Group theory based design of isotropic negative refractive index metamaterials // Progress in Electromagnetic Research. 2006. Vol. 63. P. 295-310.