Title :
Efficient techniques for widening the passband of a wavelength router
Author_Institution :
Bell Lab., Lucent Technol., Holmdel, NJ, USA
fDate :
10/1/1998 12:00:00 AM
Abstract :
The wavelength response of the waveguide grating router plays an important role in optical networks, for it determines the maximum number of channels, the minimum channel separation, and the level of isolation between channels. One would like in general the router to approximate a rectangular response without exceeding a specified loss. Here, we show how the best approximation obtained for a given loss depends on the filter complexity, the total number of arms, and the specified tolerance to fabrication errors. We derive explicity the minimum loss required to produce a given approximation, and show that the filter design is primarily determined by two parameters, the ratio of channel spacing to passband width and the passband flatness. We determine explicitly the optimum design conditions. We show that the loss can be entirely eliminated by concatenating two routers, synchronized so as to produce a unitary transformation over a finite passband
Keywords :
approximation theory; diffraction gratings; optical communication equipment; optical design techniques; optical waveguides; optimisation; telecommunication network routing; channel isolation level; channel spacing ratio; fabrication errors; filter complexity; filter design; finite passband; minimum channel separation; minimum loss; optical networks; optimum design conditions; passband flatness; rectangular response; specified loss; waveguide grating router; wavelength response; wavelength router passband widening; Arm; Channel spacing; Fabrication; Filters; Gratings; Optical fiber networks; Optical losses; Optical waveguides; Passband; Wavelength routing;
Journal_Title :
Lightwave Technology, Journal of
