Simulation and Experimental Study of Electromagnetic Wave Localization in 3D Dielectric Fractal Structures

Author

Semouchkina, Elena ; Miyamoto, Yoshinari ; Kirihara, Soshu ; Semouchkin, George ; Lanagan, Michael

Author_Institution

Mater. Res. Inst., Pennsylvania State Univ., Univ. Park, PA

fYear

2006

fDate

10-15 Sept. 2006

Firstpage

776

Lastpage

779

Abstract

Self-similar structures known as fractals have a potential to localize electromagnetic (EM) waves that are propagating through them. In this work 3D fractals called the Menger sponges were fabricated by using stereolithography from photosensitive epoxy resin mixed with titania-silica ceramic particles to localize EM waves in X band frequency range. The experiments in free space with 3D fractal structures have revealed clear attenuation of both reflection and transmission intensity at specific frequency. The FDTD simulations confirmed localization of electromagnetic energy in the sample, however, the simulated field distributions pointed out at resonance mode formation in small cavities and dielectric islands rather than in the central cavity

Keywords

dielectric materials; electromagnetic wave propagation; finite difference time-domain analysis; fractals; 3D dielectric fractal structures; 3D fractals; FDTD simulations; Menger sponges; dielectric islands; electromagnetic energy; electromagnetic fields; electromagnetic wave localization; electromagnetic waves; photosensitive epoxy resin; reflection intensity; stereolithography; titania-silica ceramic particles; transmission intensity; Attenuation; Ceramics; Dielectrics; Electromagnetic propagation; Electromagnetic reflection; Electromagnetic scattering; Epoxy resins; Fractals; Frequency; Stereolithography; Ceramics; FDTD methods; electromagnetic fields; fractals; resonance;

fLanguage

English

Publisher

ieee

Conference_Titel

Microwave Conference, 2006. 36th European

Conference_Location

Manchester

Print_ISBN

2-9600551-6-0

Type

conf

DOI

10.1109/EUMC.2006.281034

Filename

4057933