TELECOMMUNICATIONS AND RADIO ENGINEERING - 2009 Vol. 68,
No 6 		 

 

 

 

Investigations of the Fields in a Bounded Planar Dielectric Waveguide

S.A. Provalov and S.D. Andrenko
A. Usikov Institute of Radio Physics and Electronics,
National Academy of Sciences of Ukraine
12, Academician Proskura St., Kharkiv 61085, Ukraine

Abstract
Transverse and longitudinal field distributions in the bounded planar dielectric waveguide have been studied. The results of the research allow to draw a conclusion about the availability of electrodynamic system in the form of width-bounded dielectric waveguide (width consists of several tens of wavelengths) for diffraction grating excitation as well as for channeling of electromagnetic field of millimeter wave band at the distance of more than 200 wavelengths.

References

  1. Shestopalov, V.P., (1976), Diffraction electronics. Vyshchaya shcola, Kharkov: 231 p. (in Russian).
  2. Shestopalov, V.P., Andrenko, S.D., Belyaev, V.G., et al., (1977), Transformation of millimeter and submillimeter surface electromagnetic waves in bulk waves and usage of this effect in physics and engineering, Vysn. AN URSR. 1:8-21 (in Russian).
  3. Shestopalov, V.P., Calmykov, A.I., Comyak, V.A., et al., (1985), Comprehensive investigations of natural environment of Earth by radiophysical method, Docl. AN SSSR. 284(1):98-102  (in Russian).
  4. Andrenko, S.D., Yevdokimov, A.P., Cryzhanovsky, V.V., et al., (1988), Scanning antenna of airplane radiometric system, in: Radiophysical methods and means for investigation of environment in mm-wave band, Naukova dumka, Kiev, pp.154-160 (in Russian).
  5. Yevdokimov, A.P., and Cryzhanovsky, V.V., (2006), Scanning antennas of mm-waveband radars for anticollision measures of transport vehicles, Uspekhi sovremennoj radioelectroniki. 4:70-79 (in Russian).
  6. Yevdokimov, A.P., Cryzhanovsky, V.V., and Provalov, S.A., (1988), Current state of problem of beam scanning of directional pattern in antennas of radiometric system of mm-wave band, in: Radiophysical methods and means for investigation of environment in mm-wave band, Naukova dumka, Kiev, pp.160-166 (in Russian).
  7. Andrenko, S.D, Devyatkov, N.D., and Shestopalov, V.P., (1978), Antenna arrays for millimeter waveband, Docl. AN SSSR. 240(6):1340-1343 (in Russian).
  8. Andrenko, S.D, Provalov, S.A., and Sidorenko Yu.B., (2005), Four-beam antenna array for mm-wave band, Trans. of the international scientific conference IRE MW, pp.165-167 (in Russian).
  9. Vzyatyshev, V.F., (1970), Dielectric waveguides. Sov. radio, Moscow: 213 p. (in Russian).
  10. Provalov, S.A., Andrenko, S.D., Dudka, V.G., and Svishchev, Yu.V., (2005), About one method of determination of phase distribution of radiator for millimeter waveband, Radiophysika and Electronika. 10(13):394-398 (in Russian).
  11. Fradin, A.Z., (1957), Antennas for microwaves. Sov. radio, Moscow: 647 p. (in Russian).
  12. Litvinenko, O.N., (1974), Radio optics principles. Tekhnika, Kiev: 206 p. (in Russian).
  13. Born, M., and Wolf, E., (1973), Optics principles. Nauka, Moscow: 720 p. (in Russian).


pages 475-485

Back