论文信息 - Strong Localization of Electromagnetic Wave in Ceramic/Epoxy Photonic Fractals with Menger-Sponge Structure

Strong Localization of Electromagnetic Wave in Ceramic/Epoxy Photonic Fractals with Menger-Sponge Structure

Menger-sponge is a three dimensional fractal structure with self-similar patterns. We fabricated the Menger-sponge structure composed of epoxy with titania-based ceramic particles dispersion by using a stereolithography CAD/CAM system. It has a cubic body of 27 mm in edge size with square through holes of 1, 3 and 9 mm. The structure is characterized with a fractal dimension D = 2.73 and a fractal stage 3. The electromagnetic wave response of the Menger-sponge was measured by using a network analyzer. Both reflection and transmission amplitudes of incident waves showed remarkable attenuations to -50 dB at 8 GHz simultaneously. The electric field intensity in the center holes in the Menger-sponge was measured by using a mono-pole antenna. The electromagnetic energy was localized in the central air cavity by forming the strong localization mode. The localized mode frequency can be controlled by changing the structure size, number of stage, and the effective dielectric constant. We call such fractal structures as the photonic fractal.

M. Takeda | K. Sakoda | Y. Miyamoto | S. Kirihara | K. Honda

[1] M. Takeda,et al. Smart Processing Development of Photonic Crystals and Fractals , 2005 .

[2] Kazuaki Sakoda,et al. Localization of electromagnetic waves in three-dimensional fractal cavities. , 2004, Physical review letters.

[3] P. Sheng,et al. Subwavelength photonic band gaps from planar fractals. , 2002, Physical review letters.

[4] M. Takeda,et al. Control of microwave emission from electromagnetic crystals by lattice modifications , 2002 .

[5] Katsuhiro Takenaga,et al. Fabrication of electromagnetic crystals with a complete diamond structure by stereolithography , 2002 .

[6] V. Bolotov. Fractal transition radiation , 2000 .

[7] Mario Bertolotti,et al. Electromagnetic mode density for finite quasi-periodic structures , 1998 .

[8] Vladimir P. Safonov,et al. Spectral Dependence of Selective Photomodification in Fractal Aggregates of Colloidal Particles , 1998 .

[9] R. Botet,et al. Photon scanning tunneling microscopy images of optical excitations of fractal metal colloid clusters. , 1994, Physical review letters.

[10] R. Botet,et al. Localization of collective dipole excitations on fractals. , 1993, Physical review. B, Condensed matter.

[11] D. Jaggard,et al. Wave interactions with generalized Cantor bar fractal multilayers , 1991 .

[12] Vadim A. Markel,et al. Theory and numerical simulation of optical properties of fractal clusters. , 1991, Physical review. B, Condensed matter.