Title :
Computing Optimal Waveguide Bends With Constant Width
Author :
Hu, Zhen ; Lu, Ya Yan
Author_Institution :
Univ. of Sci. & Technol. of China, Jiangsu
Abstract :
A numerical method is developed for computing waveguide bends that preserve as much power as possible in fundamental mode. The method solves an optimization problem for a small number of points used to define the bend axis by cubic-spline functions. A wide-angle beam-propagation method formulated in a curvilinear coordinate system is used to compute the wave field in the bend. Compared with a circular bend and an S-bend given by a cosine curve, optimal bends have a smaller curvature near the two ends for a better connection with the straight input and output waveguides. For multimode waveguides, the optimal bends can be used to remove the coupling between the fundamental mode and other propagating modes.
Keywords :
optical waveguide components; optical waveguide theory; waveguide discontinuities; S-bend; circular bend; cosine curve; cubic-spline function; curvilinear coordinate system; optimization problem; waveguide bend computing; wide-angle beam-propagation method; Coupling circuits; Equations; Integrated optics; Mathematics; Optical losses; Optical polarization; Optical propagation; Optical scattering; Optical waveguides; Optimization methods; Beam-propagation method (BPM); numerical methods; optical waveguide; waveguide bends;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2007.904033
