87
Views
0
CrossRef citations to date
0
Altmetric
Original Articles

Time-dependent plane wave spectral analysis of the dyadic Green’s function of a fast moving dielectric-magnetic medium

&
Pages 726-738 | Received 27 Jul 2017, Accepted 06 Nov 2017, Published online: 23 Nov 2017

References

  • Tai CT. The dyadic Green’s function for a moving isotropic medium. IEEE Trans Antennas Propag. 1965;13:322–323.
  • Lee KSH, Papas CH. Electromagnetic radiation in the presence of moving simple media. J Math Phys. 1964;5:1668–1672.
  • Compton RT, Tai CT. Radiation from harmonic sources in a uniformly moving medium. IEEE Trans Antennas Propag. 1965;13:574–577.
  • Compton RT. The time dependent Green’s function for electromagnetic waves in moving simple media. J Math Phys. 1966;7:2145–2152.
  • Tai CT. Time dependent Green’s function for a moving isotropic nondispersive medium. J Math Phys. 1967;8:646–647.
  • Wang Y, Zhang Y, Li H, et al. Doppler spectrum of microwave sar signals from two-dimensional time-varying sea surface. J Electromagn Waves Appl. 2016;30(10):1265–1276.
  • Zheng KS, Li JZ, Wei G, et al. Analysis of doppler effect of moving conducting surfaces with lorentz-fdtd method. J Electromagn Waves Appl. 2013;27(2):149–159.
  • Lee WS, Lee SJ, Lee DJ, et al. Scattering from concave conducting wedges with longitudinal corrugations: TM case. J Electromagn Waves Appl. 2012;26:2142–2153.
  • Censor D. The mathematical elements of relativistic free-space scattering. J Electromagn Waves Appl. 2005;19(7):907–923.
  • Danov T, Melamed T. Spectral analysis of relativistic dyadic Green’s function of a moving dielectric-magnetic medium. IEEE Trans Antennas Propag. 2011;59:2973–2979.
  • Felsen LB, Marcuvitz N. Radiation and scattering of waves. Piscataway (NJ): IEEE Press; 1994. Classic reissue.
  • Clemmow PC. The plane wave spectrum representation of electromagnetic fields. New York (NY): IEEE Press and Wiley; 1996.
  • Hansen TB, Yaghjian AD. Plane-wave theory of time-domain fields: near-field scanning applications. New York (NY): Wiley-IEEE Press; 1999.
  • Heyman E. Weakly dispersive spectral theory of transients (STT), part III: applications. IEEE Trans Antennas Propag. 1987;35:1258–1266.
  • Heyman E, Strachielevitz R, Kosloff D. Pulsed beam reflection and transmission at a planar interface: exact solutions and approximate local models. Wave Motion. 1993;18:315–343.
  • Ianconescu R, Heyman E. Pulsed field diffraction by a perfectly conducting wedge: A spectral theory of transient (STT) analysis. IEEE Trans Antennas Propag. 1994;42:781–789.
  • Melamed T, Abuhasira D, Dayan D. Transverse electric and transverse magnetic pulsed beam decomposition of time-dependent aperture fields. J Opt Soc Am A. 2012;29:1115–1123.
  • Bolomey JC, Lesselier D, Pichot C, et al. Spectral and time domain approaches to some inverse scattering problems. IEEE Trans Antennas Propag. 1981;29:206–212.
  • Melamed T, Ehrlich Y, Heyman E. Short-pulse inversion of inhomogeneous media: A time-domain diffraction tomography. Inverse Prob. 1996;12:977–993.
  • Hadad Y, Melamed T. Time-dependent tilted pulsed-beams and their properties. IEEE Trans Antennas Propag. 2011;59:3855–3862.
  • Melamed T, Felsen LB. Pulsed beam propagation in dispersive media via pulsed plane wave spectral decomposition. IEEE Trans Antennas Propag. 2000;48:901–908.
  • Tinkelman I, Melamed T. Local spectrum analysis of field propagation in anisotropic media. Part II - Time-dependent fields, J Opt Soc Am A. 2005;22:1208–1215.
  • Melamed T. Pulsed beam expansion of electromagnetic aperture fields. Progress Electromagnet Res. 2011;114:317–332.
  • Maron C, Melamed T. Spectral analysis of te beam scattering from a moving planar dielectric-magnetic half-space. IEEE 27th Convention of Electrical Electronics Engineers in Israel. Eilat; 2012.
  • Tuvi R, Melamed T. Scalar pulsed beam scattering by a fast moving soft wedge. URSI General Assembly and Scientific Symposium. Beijing; 2014.
  • Martinez A, Miguez H, Sanchez-Dehesa J, et al. Analysis of wave propagation in a two-dimensional photonic crystal with negative index of refraction: plane wave decomposition of the bloch modes. Opt Express. 2005;13.
  • Danov T, Melamed T. A simple and direct time domain derivation of the dyadic Green’s function for a uniformly moving dielectric-magnetic medium. IEEE Trans Antennas Propag. 2012;60:2594–2597.
  • Heyman E, Melamed T. Certain considerations in aperture synthesis of ultrawideband/short-pulse radiation. IEEE Trans Antennas Propag. 1994;42:518–525.
  • Heyman E, Melamed T. Space-time representation of ultra wideband signals. vol. 103 of Advances in imaging and electron physics. Amsterdam: Elsevier; 1998. p. 1–63.
  • Heyman E. Time-dependent plane-wave spectrum representations for radiation from volume source distributions. J Math Phys. 1996;37:658–681.
  • Lakhtakia A, Mackay TG. Simple derivation of dyadic Green functions of a simply moving, isotropic, dielectric-magnetic medium. Microwave Opt Technol Lett. 2006;48:1073–1074.
  • Danov T, Melamed T. 2D relativistic longitudinal Green’s function in the presence of a moving planar dielectric-magnetic discontinuity. J Opt Soc Am A. 2011;9:285–294.
  • Melamed T, Danov T. STT analysis of the time-dependent reflected field from a moving dielectric-magnetic planar discontinuity. IEEE Trans Antennas Propag. 2017;65(10):5238–5244.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.