Title :
An efficient technique for the design of an arrayed-waveguide grating with flat spectral response
Author :
Kamalakis, Thomas ; Sphicopoulos, Thomas
Author_Institution :
Dept. of Informatics & Telecommun., Athens Univ., Greece
fDate :
11/1/2001 12:00:00 AM
Abstract :
The spectral response of the arrayed-waveguide grating (AWG) plays an important role in optical networks. Ideally, the grating should have a rectangular transfer function to reduce the need for accurate wavelength control and achieve low crosstalk. A new technique for designing an AWG with flat spectral response is presented. The problem of the optimization of the transfer function is reduced to that of adjusting the arrayed waveguide lengths and their relative positions on the edge of the free propagating regions in order to minimize a certain error function. As a result, the waveguide lengths and their positions are determined using a rigorous mathematical procedure. The resultant transfer function is flat with low sidelobes
Keywords :
demultiplexing equipment; diffraction gratings; optical arrays; optical communication equipment; optical crosstalk; optical design techniques; optical fibre networks; optical transfer function; optical waveguide components; optimisation; wavelength division multiplexing; AWG; arrayed waveguide lengths; arrayed-waveguide grating; design; error function; flat spectral response; flat spectral response spectral response; free propagating regions; grating; low crosstalk; optical networks; optimization; rectangular transfer function; relative positions; resultant transfer function; rigorous mathematical procedure; transfer function; waveguide lengths; waveguide positions; wavelength control; Arrayed waveguide gratings; Integrated optics; Optical arrays; Optical crosstalk; Optical fiber networks; Optical filters; Optical waveguide components; Optical waveguides; Transfer functions; Wavelength division multiplexing;
Journal_Title :
Lightwave Technology, Journal of
