Proceedings ArticleDOI
A new type of waveguide structures with photonic band structures
Toshio Suzuki,Paul K. L. Yu,David R. Smith,Sheldon Schultz +3 more
- Vol. 2, pp 911-914
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TLDR
In this paper, two-dimensional photonic crystals sandwiched between two metal conductors are used to control both the electromagnetic propagation and the radiation spectra in a waveguide, which can be completely suppressed in band gaps and enormously enhanced at specific pass bands frequencies.Abstract:
We study a new type of waveguide structures-two-dimensional photonic crystals sandwiched between two metal conductors. In the structures, not only the electromagnetic propagation, but also the radiation spectra can be controlled. Radiation from microwave dipole antennas can be completely suppressed in band gaps and enormously enhanced at specific pass bands frequencies.read more
Citations
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Proceedings ArticleDOI
Study on polarization characteristic of asymmetrical AMC structure
TL;DR: In this paper, the polarization characteristic of asymmetrical AMC structure is studied and two structures are considered for different polarization direction of incident wave, different band gap of reflection phase is observed This characteristic can be utilized to change antenna polarizations
Proceedings ArticleDOI
Study on polarization characteristic of asymmetrical AMC structure
TL;DR: In this paper, the polarization characteristic of asymmetrical AMC structure is studied and two structures are considered for different polarization direction of incident wave, different band gap of reflection phase is observed This characteristic can be utilized to change antenna polarizations
Proceedings ArticleDOI
A novel two-layers compact EBG structure
TL;DR: The results show that compared with the normal EBG structure this one can decrease the size of the circuit greatly and can be easily manufactured and applied.
References
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Journal ArticleDOI
Emission power of an electric dipole in the photonic band structure of the fcc lattice
Toshio Suzuki,Paul K. L. Yu +1 more
TL;DR: In this article, the authors developed a classical theory for the calculation of the emission power from the electric dipole located in three-dimensional photonic crystals by incorporating the plane-wave method, dyadic Green's function, Poynting theorem, and tetrahedron k-space integration.