А.Ю. Гринев – д.т.н., профессор, Московский авиационный институт (национальный исследовательский университет) E-mail: grinevau@yandex.ru
А.А. Измайлов – аспирант, Московский авиационный институт (национальный исследовательский университет) E-mail: yustas1993@yandex.ru
А.А. Цитович – инженер 1-й кат., АО «НПП «Исток» им. Шокина» (г. Фрязино) E-mail: alekseytsitovich@gmail.com
Предложена методика аналитической оценки основных параметров и характеристик двумерных антенн на основе частотноселективных структур со свойствами частично отражающей поверхности (структуры и геометрии, рабочей полосы частот, коэффициента усиления, диаграммы направленности и.т.д.).
Обобщены результаты, полученные как методом эквивалентных схем на основе модели T-волны, так и на модели двумерной антенны вытекающей волны.
- Felsen L.B., Marcuvitz N. Radiation and Scattering of Waves. 2-nd ed. New York. 2003.
- Вайнштейн Л.А. Открытые резонаторы и открытые волноводы. М.: Сов. радио. 1966. 474 с.
- Шестопалов В.П., Кириленко А.А., Масолов С.А.,Сиренко Ю.К. Резонансное рассеяние волн. Т. 1. Дифракционные решетки. Киев: Наукова Думка. 1986. 232 с.
- Галишникова Т.Н., Ильинский А.С. Метод интегральных уравнений в задачах дифракции волн. М.: МАКС Пресс. 2013. 248 с.
- Электродинамика антенн с полупрозрачными поверхностями: методы конструктивного синтеза / Под ред. Б.З. Каценеленбаума и А.Н. Сивова. М.: Наука.1989. 176 с.
- Конторович М.И., Астрахин М.И., Акимов В.П., Ферсман Г.А. Электродинамика сетчатых структур. М.: Радио и связь. 1987. 135 с.
- Electromagnetic Theory of Gratings / Ed. R. Petit. New York: Springer-Verlag. 1980.
- Applications of Metamaterials. Edited by F. Capolino. CRC Press. 2005.
- Modern antenna handbook / Ed. C.A. Balanis. John Wiley & Sons. 2008. Ch. 7. P. 325−367.
- Frontiers in antennas: next generation, design & engineering. Ed. Frank B. Gross. McGrow-Hill. 2011. Ch. 9. P. 339−409.
- Pozar D.M. Microwave Engineering. NJ (USA): JohnWiley & Sons. 2012. 732 p.
- Yang F., Rahmat-Samii Y. Electromagnetic Band Gap Structures in Antenna Engineering. Cambridge University Press. 2009. 266 p.
- Tretyakov S. Analytical modeling in applied electromagnetics. Artech House. 2003. 272 p.
- Vardaxoglou J.C. Frequency-Selective Surfaces: Analysis and Design. Taunton. U.K.: Res. Studies Press. 1997. 298 p.
- Munk B.A., Frequency Selective Surfaces: Theory and Design. First Edition. Wiley, New York. 2000. 440 p.
- Trentini G.V. Partially reflecting sheet arrays // IRE Trans. Antennas Propagation. 1956. № 4. P. 666−671.
- Feresidis A.P., Vardaxoglou J.C. High gain planar antenna using optimized partially reflective surfaces // IEE Proceedings Microwaves. Antennas and Propagation. 2001. V. 148. № 6. P. 345−350.
- Wang N., Liu Q., Wu C., et.al. Wideband Fabry-Perot resonator antenna with two сomplementary FSS layers // IEEE Trans. Antennas Propag. 2014.V. 62. № 5. P. 2463−2471.
- Wu Z-H., Zhang W-X. Broadband printed compound air-feed array antennas // IEEE antennas and wireless propagation letters. 2010. V. 9. P. 187−190.
- David F., Rafael F.S., Caldeirinha I.C. and et.al. Square loop and slot Frequency selective surfaces study for equivalent circuit model optimization // IEEE Trans. on Antennas Propagation. 2015. V. 63. № 9. P. 3947−3955.
- Hosseini S.A., Capolino F., Flaviis F. Q-band single-layer planar Fabry–Pérot cavity antenna with single integrated-feed // Progress In Electromagnetics Research. V. 52. 2014. P. 135−144.
- Gardelli R., Albani M., Capolino F. Array thinning by using antennas in a Fabry–Perot cavity for gain enhancement // IEEE Trans. on Antennas Propagation. 2006. V. 54. № 7. P. 1979−1989.
- Hosseini S.A., Capolino F., Flaviis F.D. A new formula for the pattern bandwidth of Fabry–Perot cavity antennas covered by thin frequency selective surfaces // IEEE Trans. Antennas Propagation. 2011. V. 59. № 7. P. 2724−2727.
- Hosseini S.A., Capolino F., Flaviis F.D. and et.al. Improved bandwidth formulas for Fabry–Pérot cavity antennas formed by using a thin partially-reflective surface // IEEE Trans. Antennas Propagation. 2014. V. 62. № 5. P. 2361−2367.
- Hosseini S.A., Flaviis F.D., Capolino F. Design formulas for planar Fabry–Pérot cavity antennas formed by thick partially reflective surfaces // IEEE Trans. Antennas Propagation. 2016. V. 64. № 12. P. 5487−5491.
- Hosseini S.A., Capolino F., Flaviis F. Q-band single-layer planar Fabry–Pérot cavity antenna with single integrated-feed // Prog. Electromagn. Res. 2014.V. 52. P. 135−144.
- Debogović T., Perruisseau-Carrier J. Array-Fed Partially Reflective Surface Antenna with Independent Scanning and Beam width Dynamic Control // IEEE Trans. Antennas Propagation. 2014. V. 62. № 1. P. 446−449.
- Lu Y.F., Lin Y.C. A hybrid approach for finite-size Fabry–Pérot antenna design with fast and accurate estimation on directivity and aperture efficiency // IEEE Trans. Antennas Propagation. 2013. V. 61. № 11. P. 5395−5401.
- Кюн Р. Микроволновые антенны. Л.: Судостроение 1967.
- Tamir T. Leaky wave antennas // Antenna Theory / Eds. R.E. Collin, F.J. Zucker. Part 2. Ch. 20. New York: McGraw-Hill. 1969.
- Jackson D.R., Oliner A.A. Leaky-Wave Antennas // Modern antenna handbook / Ed. C.A. Balanis. John Wiley & Sons. 2008. P. 325−369.
- Lovat G., Burghignoli P., Jackson D.R. Fundamental properties and optimization of broadside radiation from uniform leaky-wave antennas // IEEE Trans. Antennas Propagation. 2006. V. 54. № 5. P. 1442−1452.
- Burghignoli P., Lovat G., Capolino F., Jackson D.R., Wilton D.R. Directive leaky-wave radiation from a dipole source in a wiremedium slab // IEEE Trans. Antennas Propag. 2008. V. 56. № 5. P. 1329−1339.
- Ip A., Jackson D.R. Radiation from cylindrical leaky waves// IEEE Trans. Antennas Propagation. 1990. V. 38. № 6. P. 482−488.
- Zhao T., Jackson D.R., Williams J.T. and et.al. 2-D periodic leaky-wave antennas. Part I: Metal patch design // IEEE Trans. Antennas Propag. 2005. V. 53. № 11. P. 3505−3514.
- Guo X., Jackson D.R., Chen J., Capolino F., Wilton D.R. Leaky-wave analysis of Fabry–Pérot resonant cavity antennas // 2013 URSI Electromagnetic Theory Symposium. Japan. 2013.
- Guo X., Jackson D.R., Chen Ji, Capolino F., Wilton D.R. Leaky-Wave analysis of Fabry–Pérot resonant cavity antennas // Proceedings of the Intern. Symposium on electromagnetic theory. 2013. P. 1091−1093.
- Luukkonen O., Simovski C., Granet G., et. all. Simple and Accurate Analytical Model of Planar Grids and High-Impedance Surfaces Comprising Metal Strips or Patches // IEEE Trans. Antennas Propag. 2008. V. 56. № 6. P. 1624−1632.
- Taflove A., Hagness S.C. Computational electromagnetics: The finite-difference time-domain method. Artech House. 2005. 853 p.
- Volakis J.L., Chatterjee A., Kempel L.C. Finite element method for electromagnetic. New York: IEEE Press. 1998. 344 p.
- Sadiku M.N.O. Numerical technique in electromagnetics with MATLAB. CRC Press. 2009. 710 p.
- Costa F., Monorchio A., Manara G. Efficient analysis of frequency selective surfaces by a simple equivalent-circuit model // IEEE Transactions on antennas and propagation magazine. 2012. V. 54. № 4. P. 35−48.
- Sarabandi K., Behdad N. A frequency selective surface with miniaturized elements // IEEE Trans. Antennas Propag. 2007. V. 55. № 5. P. 1239−1245.
- Bayatpur F., Sarabandi K. Single-layer high-order miniaturized-element frequency-selective surfaces // IEEE Trans. on microwave theory and techniques. 2008. V. 56. № 4. P. 774−781.
- Al-Joumayly M., Behdad N. A new technique for design of low-profile, second-order, bandpass frequency selective surfaces // IEEE Trans. Antennas Propagation. Magazine. 2009. V. 57. № 2. P. 452−4459.
- Al-Joumayly M., Behdad N. A generalized method for synthesizing low-profile, band-pass frequency selective surfaces with nonresonant constituting elements// IEEE Trans. Antennas Propag. 2010. V. 58. № 12. P. 4033−4041.
- Kashanianfard M., Sarabandi K. Metamaterial inspired optically transparent Band-Selective ground planes for antenna application // IEEE Trans. Antennas Propag. 2013. V. 61. № 9. P. 4624−4631.
- Mingyun L., Minjie H., Zhe W. Design of multi-band frequency selective surfaces using multi-periodicity combined elements // Journal of Systems Engineering and Electronics. 2009. V. 20. № 4. P. 675−680.
- Zhang J.C., Yin Y.C., Zheng A.F. Double screen FSSs with multi-resonant elements for multiband, broadband applications // J. of Electromagn. Waves and Appl. 2009. V. 23. P. 2209−2218.
- Bayer H., Krauss A., Zaiczek T. and et. al. Ka-Band User Terminal Antennas for Satellite сcommunications // IEEE Antennas & Propagation Magazine. 2016. № 2. P. 76−88.
- Chaharmir M.R., Shaker J. Design of a multilayer X-/Ka-band frequency-selective surface-backed reflect array for satellite applications // IEEE Trans. on Antennas Propagation. 2015. V. 63. № 4. P. 1255−1262.
- Qin F., Gao S., Luo Qi, Mao C-X. and et. al. A simple low-cost shared-aperture dual-band dual-polarized high-gain antenna for synthetic aperture radars // IEEE Trans. on Antennas Propagation. 2016. V. 64. № 7. P. 2914−2922.
- Zhong S.S., Sun Z., Kong L.B., Gao C., Wang W., Jin M.P. Tri-band dual-polarization shared-aperture microstrip array for SAR applications // IEEE Trans. Antennas Propagation. 2012. V. 60. № 9. P. 4157−4165.