Title :
Waveguide Design at Infrared Wavelength With Asymmetric Dielectric Surface Gratings
Author :
Dongyeal Lim ; Heeseung Lim ; Jae Seok Choi ; Jeonghoon Yoo
Author_Institution :
Grad. Sch. of Mech. Eng., Yonsei Univ., Seoul, South Korea
Abstract :
In this paper, we propose waveguide design at infrared wavelength with asymmetric dielectric surface gratings. Surface gratings are able to generate the surface plasmon polariton effect at the outlet of radiated light through an aperture. The property and the shape of gratings are key factors behind generating collimated beams from subwavelength slits or holes surrounded by corrugated surfaces. Grating design is conducted by structural optimization based on the phase field method. The design objective is set to maximize the Poynting vector in the measuring area, and it is focused on finding a clear shape of grating structure for the manufacturing feasibility to be taken into account. The simulation and optimization process is performed by using the commercial package COMSOL associated with the MATLAB programming.
Keywords :
diffraction gratings; mathematics computing; optical design techniques; optical waveguides; optimisation; polaritons; surface plasmons; MATLAB programming; Poynting vector; asymmetric dielectric surface gratings; collimated beam generation; commercial package COMSOL; corrugated surfaces; grating design; infrared wavelength; phase field method; structural optimization; surface plasmon polariton effect; waveguide design; Apertures; Gratings; Mathematical model; Optimization; Shape; Surface waves; Topology; Electromagnetic wave; surface plasmon effect; topology optimization; waveguide design;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2282811
