Title :
Modal transmission-line theory of multilayered grating structures
Author :
Tamir, Theodor ; Zhang, Shuzhang
Author_Institution :
Dept. of Electr. Eng., Polytechnic Univ., Brooklyn, NY, USA
fDate :
5/1/1996 12:00:00 AM
Abstract :
Solutions to problems involving the scattering and guiding of waves by multilayered grating configurations can be phrased in rigorous modal terms. We show that such a modal solution can be represented by electrical transmission-line networks, which are generalized forms of simpler conventional circuits. This approach brings considerable physical insight into the grating diffraction process and facilitates the derivation of the fields everywhere. In particular, the transmission-line representation can serve as a template for computational algorithms that systematically evaluate dispersion properties, radiation effects, wave coupling and other characteristics that are not readily obtained by other methods. Examples illustrating the application of the present approach are given for waves guided by grating configurations encountered in optoelectronic devices
Keywords :
diffraction gratings; light scattering; optical couplers; optical dispersion; optical films; optical waveguide theory; radiation effects; transmission line theory; computational algorithms; dispersion properties; electrical transmission-line networks; grating configurations; grating diffraction process; guiding wave scattering; modal solution; modal transmission-line theory; multilayered grating configurations; multilayered grating structures; optoelectronic devices; physical insight; radiation effects; rigorous modal terms; transmission-line representation; wave coupling; Coupling circuits; Dielectric devices; Diffraction gratings; Dispersion; Electromagnetic scattering; Microwave theory and techniques; Optical scattering; Optoelectronic devices; Radiation effects; Transmission lines;
Journal_Title :
Lightwave Technology, Journal of
