Abstract:
This paper presents the characteristics of guided (surface) waves and leaky waves on multilayer structures with planar implanted periodic dielectric blocks. A three-dimen...Show MoreMetadata
Abstract:
This paper presents the characteristics of guided (surface) waves and leaky waves on multilayer structures with planar implanted periodic dielectric blocks. A three-dimensional (3-D) integral-equation formulation in conjunction with the method of moments (MoM's) is used to find the propagation constants of the surface-wave and leaky-wave modes. The analysis deals with layered structures with irregular implants. Photonic band-gaps of both guided waves and leaky waves for rectangular air-implants are identified. Anisotropic properties of the surface waves and leaky waves are investigated. The design of leaky-wave antennas with the information of mode characteristics is discussed. The analysis is validated through the comparison with a low-frequency effective-medium approach and results for linear gratings.
Published in: IEEE Transactions on Microwave Theory and Techniques ( Volume: 45, Issue: 3, March 1997)
DOI: 10.1109/22.563343
References is not available for this document.
Select All
1.
E. Yablonovitch, "Photonic band-gap structures", J. Opt. Soc. Amer. B Opt. Phys., vol. 10, no. 2, pp. 283-294, Feb. 1993.
2.
S. T. Peng, T. Tamir and H. Bertoni, "Theory of periodic dielectric waveguides", IEEE Trans. Microwave Theory Tech., vol. MTT-23, pp. 123-133, Jan. 1975.
3.
T. Itoh and A. Hebert, "Simulation study of electronically scannable antennas and tunable filters integrated in a quasiplanar dielectric waveguide", IEEE Trans. Microwave Theory Tech., vol. MTT-26, pp. 987-991, Dec. 1978.
4.
E. W. Lucas and T. P. Fontana, "A 3-D hybrid finite element/boundary element method for the unified radiation and scattering analysis of general infinite periodic arrays", IEEE Trans. Antennas Propagat., vol. 43, pp. 145-153, Jan. 1995.
5.
H. Y. D. Yang, N. G. Alexopoulos and R. Dias, "Reflection and transmission of waves from artificial-material layers made of periodic material blocks", IEEE Int. Symp. Antennas Progagat. Dig., pp. 1428-1431, July 1996.
6.
C. F. Yang, W. D. Burnside and R. C. Rudduck, "A double periodic moment method solution for the analysis and design of an absorber covered wall", IEEE Trans. Antennas Progagat., vol. 41, pp. 600-601, May 1993.
7.
W. Sun, K. Liu and C. A. Balanis, "Analysis of singly and doubly periodic absorbers by frequency-domain finite difference method", IEEE Trans. Antennas Progagat., vol. 44, pp. 798-805, June 1996.
8.
W. Platte, "Spectral dependence of light-induced microwave reflection coefficient from optoelectronic waveguide gratings", IEEE Trans. Microwave Theory Tech., vol. 43, pp. 106-111, Jan. 1995.
9.
S. D. Gedney, J. F. Lee and R. Mittra, "A combined FEM/MoM approach to analyze the plane wave diffraction by arbitrary gratings", IEEE Trans. Microwave Theory Tech., vol. 40, pp. 363-370, Feb. 1992.
10.
S. I. Pereverzev and P. Y. Ufimtsev, "Permittivity and permeability of a fiber grating", Electromagnetics, no. 14, pp. 137-151, 1994.
11.
W. P. Pinello, R. Lee and A. C. Cangellaris, "Finite element modeling of electromagnetic wave interactions with periodic dielectric structures", IEEE Trans. Microwave Theory Tech., vol. 42, pp. 2294-2301, Dec. 1994.
12.
D. M. Pozar and D. H. Schaubert, "Scan blindness in infinite arrays of printed dipoles", IEEE Trans. Antennas Progagat., vol. AP-32, pp. 602-608, June 1984.
13.
J. L. Tsalamengas and N. K. Uzunoglu, "Radiation from a dipole in the proximity of a general anisotropic grounded layer", IEEE Trans. Antennas Progagat., vol. AP-33, pp. 165-172, Feb. 1985.
14.
E. F. Kuester and C. L. Holloway, "Comparison of approximations for effective parameters of artificial dielectric", IEEE Trans. Microwave Theory Tech., vol. 38, pp. 1752-1755, Nov. 1990.
15.
E. F. Kuester and C. L. Holloway, "A low-frequency model for wedge or pyramid absorber arrays-I: Theory", IEEE Trans. Electromag. Compat., vol. 36, pp. 300-306, Nov. 1994.
16.
H. Y. Yang and J. A. Castaneda, "Printed dipole characteristics in a two-layer geometry with uniaxial anisotropy", Electromagnetics, vol. 9, no. 4, pp. 439-450, 1989.
17.
N. W. Ashcroft and N. D. Mermin, Solid State Physics., 1976.
18.
H. Y. D. Yang, "Finite difference method for 2-D photonic crystals", IEEE Trans. Microwave Theory Tech., vol. 44, pp. 2688-2695, Dec. 1996.
19.
H. Stoll and A. Yariv, "Coupled-mode analysis of periodic dielectric waveguides", Opt. Commun., vol. 8, no. 1, pp. 5-7, May 1973.
20.
H. Y. D. Yang, N. G. Alexopoulos and E. Yablonovitch, "Photonic band-gap materials for high-gain printed circuit antennas", IEEE Trans. Antennas Progagat., vol. 45, pp. 185-187, Jan. 1997.
21.
H.-Y. Yang, J. A. Castaneda and N. G. Alexopoulos, "Surface wave modes of printed circuit on ferrite substrates", IEEE Trans. Microwave Theory Tech., vol. 40, pp. 613-621, Apr. 1992.
