350 rub
Journal Antennas №12 for 2013 г.
Article in number:
Metamaterials on the basis of superlimiting waveguiding structures
Authors:
V.N. Mitrokhin - D.Sc. (Eng.), Professor of Bauman Moscow State University, Senior Research Scientist of Bauman Moscow State University Research Institute
D.S. Ryzhenko - Ph.D. (Eng.), Deputy Head of Information-Analytic Department of Bauman Moscow State University Research Institute. E-mail: dsr@bmstu.ru
N.Ju. Fadeeva - Post-graduate Student, Junior Research Scientist of Bauman Moscow State University Research Institute. E-mail: fadeeva.n.u@gmail.com
Abstract:
The paper describes the possibility of implementation of areas with negative volumes of dielectric and magnetic capacity based on discontinuity of waveguides with spherically and cylindrically directed waves including reactively evanescent fields areas of near zone of elementary magnetic and electric dipoles, the fields of which are identical to E01 and H01 fields of spherical waveguide waves in superlimiting area.
Pages: 4-12
References

  1. Gulyaev Yu.V., Lagar'kov A.N., Nikitov S.A. Metamaterialy: fundamental'nye issledovaniya i perspektivy primeneniya // Vestnik RAN. 2008. T. 78. № 5. S. 438-457.
  2. Panchenko B.A. Metamaterialy i sverkhnapravlennost' antenny // Radiotekhnika i elektronika. 2009. T. 54. № 3. S. 302-307.
  3. Slyusar V. Metamaterialy v antennoj tekhnike: osnovnye principy i rezul'taty // Pervaya liniya. 2010. № 34. S. 44-60.
  4. Panchenko B.A., Gizatullin M.G. Nano-antenny. M.: Radiotekhnika. 2010.
  5. Dong Y., Iston T. Promising Future of Metamaterial // IEEE Microwave magazine. 2012. March/April. P. 39-56.
  6. Smith D.R., Padilla W.J., Vier D.C., Nemat-Nasser S.C., Schultz S. Composite Medium, with Semultaireously Negative Permeability and Permittivity // Physical Review Letters. 2001. V. 84. № 18. P. 4184-4187.
  7. Marques R., Martel J., Mesa F., Medina F. Left-Handed Media Simulating and Transmission of FM Waves in Sub-wavelength Split-Ring-Resonator-Loaded metallic Waveguides // Physical Review Letters. 2002. V. 89. № 18. P. 183901-1-183901-4.
  8. Golubeva N.S., Mitrokhin V.N. Osnovy radioelektroniki sverkhvysokikh chastot: Ucheb. posobie. M.: Izd-vo MGTU im. N.E. Baumana. 2008.
  9. Camacho-Penalos C., Esteban J., Martin-Ginerero T.M., Marques-Segyra E. On the simulation of negative electric permittivity and magnetic negative permeability by means of evanescent waveguide modes // 27th ESA Antenna Technology Workshop (Santiago de Compostela, Spain. 2004. March 9-11). P. 461-468.
  10. Esteban J., Camacho-Penalos C., Page J.E., Martin-Ginerero T.M., Marques-Segyra E. Simulation of Negative Permittivity and Negative Permeability by Means of Evanescent Waveguide Modes - Theory and Experiment // IEEE Transaction on Microwave Theory and Techniques. 2005. V. 53. № 4. P. 1506-1514.
  11. Patent na poleznuyu model' RU113077U1. Polosovoj fil'tr SVCh diapazona / Ryzhenko D.S., Mitrokhin V.N., Tyagunov V.A. Opubl. 27.01.2012.
  12. Patent na izobretenie RF 2459321. Zagraditel'nyj fil'tr SVCh diapazona / D.S. Ryzhenko, V.N. Mitrokhin, V.A. Tyagunov. Opubl. 27.08.2012.
  13. Mitrokhin V.N., Ryzhenko D.S., Tyagunov V.A. Eksperimental'nye issledovaniya SVCh ustrojstv, soderzhashhikh metamaterialy // Fizika volnovykh processov i radiotekhnicheskie sistemy. 2001. T. 14. № 3. S. 43-53.
  14. Mitrokhin V.N. Issledovanie perekhodnykh polej v neodnorodnykh SVCh strukturakh s kriticheskimi secheniyami // Radiotekhnika. 1999. № 4. S. 43-53.
  15. Mitrokhin V.N., Ryzhenko D.S. Principy postroeniya iskusstvennoj sredy s otricatel'noj dielektricheskoj pronicaemost'yu // Vestnik SONIR. 2009. № 4 (26). S.70-77.
  16. Mitrokhin V.N., Ryzhenko D.S., Fadeeva N.Yu. Issledovanie blizhnikh polej elementarnykh izluchatelej // Elektromagnitnye volny i elektronnye sistemy. 2013. № 7. S. 26-33.
  17. Mitrokhin V.N. Elektromagnitnoe pole izolirovannogo dielektricheskim sharom dipolya // Vestnik MGTU im. N.E. Baumana. Priborostroenie. 1991. № 3. S. 31-40.
  18. Mitrokhin V.N., Polishhuk A.E. Elektricheskij zond v dielektricheskom share // Antenny. 2001. Vyp. 8 (54). S. 41-47.
  19. Bej N.A., Mitrokhin V.N., Polishhuk A.E. Shirokopolosnye antenny i puti uluchsheniya ikh kharakteristik // Fizika volnovykh processov i radiotekhnicheskie sistemy. 2003. T. 6. № 3. S. 5-13.
  20. Patent na izobretenie RF № 2221316. Bikonicheskaya antenna / V.N. Mitrokhin, A.E. Polishhuk, I.B. Fedorov. Zareg. v Gos. Reestre izobretenij RF 10.01.2004.
  21. Stuart H.R., Pidwerbetsky A. Electrically Small Antenna Elements Using Negative Permittivity Resonators // IEEE Trans. Antennas and Propag. June 2006. V. 54. № 6. P. 1644-1653.
  22. Best S.R. The Radiation Properties of Electrically Small Folded Spherical Helix Antennas // IEEE Trans. Antennas and Propag. 2004. V. 53. № 4. P. 953-960.
  23. Best S.R. Low Q Electrically Small Linear and Elliptical Polarazed Spherical Dipole Antennas // IEEE Trans. Antennas and Propag. 2005. V. 53. № 3. P. 1047-1053.
  24. Ziolkowski R.W., Erentok A. Metamaterial-Based Efficient Electrically Small Antennas // IEEE Trans. Antennas and Propag. 2006. V. 54. № 7. P. 2113-2130.
  25. Erentok A., Ziolkowski R.W. Metamaterial-Inspired Efficient Electrically Small Antennas // IEEE Trans. Antennas and Propag. 2008. V. 56. № 3. P. 691-707.