Patent ID: 6591034
Filing Date: 2003-07-08
Classification: G02B

Abstract:
In a system having at least two optical wavelength channels, a configuration for at least one of spatially separating and spatially joining the at least two optical wavelength channels, comprising:an optical grating device defining a common spatial point, the optical wavelength channels having respective first optical powers commonly assigned to the common spatial point, said optical grating device additionally defining a propagation direction for optical power transmitted in said optical grating device; said optical grating device further defining separate spatial points assigned solely to respective ones of the optical wavelength channels, the optical wavelength channels having respective second optical powers respectively concentrated at the separate spatial points, and said optical grating device linking the respective first optical powers and the respective second optical powers; strip-shaped optical waveguides optically coupled to said optical grating device, each of said strip-shaped optical waveguides being assigned solely to a respective one of the optical wavelength channels; said strip-shaped optical waveguides having respective end faces respectively disposed at the separate spatial points assigned to the respective ones of the optical wavelength channels, the respective second optical powers being at least partially coupled to said strip-shaped optical waveguides; said strip-shaped optical waveguides having respective wavelength-dependent transmission functions partly determined by said optical grating device; an attenuator for providing an attenuation function for a wavelength-dependent attenuation of at least one of the respective wavelength-dependent transmission functions; and said attenuator including an attenuation device disposed in said optical grating device, said attenuation device attenuating an optical power of one of the optical waveguide channels in a position-resolved manner, said attenuation device further including an optical stop filter extending transversely with respect to the propagation direction and having a position-resolved transmission characteristic.