The theory of high quality electromagnetic oscillations in the multilayer spherical resonator

Author

Burlak, Gennadiy N. ; Koshevaya, Svetlana V. ; Sanchez-Mondragon, J. ; Gutierrez-D, E. ; Grimalsky, Vladimir

Author_Institution

Autonomous Univ. of Morelos, Cuernavaca, Mexico

Volume

1

fYear

2000

fDate

2000

Firstpage

113

Abstract

The paper investigates the selection of the electromagnetic modes of a dielectric sphere in a compound multilayer resonator of optical frequencies. The waveguide properties of the spherical stack are investigated for systems of optical layers with arbitrary ratio between layer thickness and wavelength. The appropriate matrix formalism is developed. Both the reflection coefficient and the impedance of the stack are calculated. Depending on the number of layers, it is possible to decrease sharply the impedance of the system. It is shown that increasing the number of layers in the stack considerably increases the quality of oscillations. We offer to use such systems in optical communication systems for processing of signals

Keywords

dielectric resonators; electromagnetic oscillations; electromagnetic wave reflection; optical multilayers; optical resonators; dielectric sphere; electromagnetic mode selection; high quality electromagnetic oscillations; layer thickness/wavelength ratio; matrix formalism; multilayer spherical resonator; optical communication systems; optical frequencies; optical layers; oscillation quality; reflection coefficient; signal processing; spherical stack; stack impedance; waveguide properties; Dielectrics; Electromagnetic waveguides; Impedance; Nonhomogeneous media; Optical reflection; Optical resonators; Optical waveguide theory; Optical waveguides; Resonant frequency; Transmission line matrix methods;

fLanguage

English

Publisher

ieee

Conference_Titel

Microwaves, Radar and Wireless Communications. 2000. MIKON-2000. 13th International Conference on

Conference_Location

Wroclaw

Print_ISBN

83-906662-3-5

Type

conf

DOI

10.1109/MIKON.2000.913887

Filename

913887