1 October 1996 Design and performance of concave holographic gratings for applications as multiplexers/demultiplexers for wavelength routed optical networks
Author Affiliations +
Optical Engineering, 35(10), (1996). doi:10.1117/1.600966
Abstract
The design method and the performance of two types of concave gratings for operation as multiplexers/demultiplexers, with 10 nm/mm reciprocal linear dispersion, required to multiplex/demultiplex channels separated by 0.5 nm in wavelength, are presented. The first type of grating is designed in such a way that the principal ray of the central wavelength in the spectrum is diffracted at normal angles to the image field. The second type of grating is a Rowland circle mount. In each case, two recording configurations are obtained. The performances of the mounts are almost identical. In the first configuration, the coupling loss is less than 22.7 dB and the optical isolation is better than 237 dB. In the second configuration, the losses are less than 21.8 dB and the optical isolation is better than 243 dB. Finally, a Rowland circle grating with 4 nm/mm reciprocal linear dispersion, which can multiplex/ demultiplex at least 175 channels with loss less than 22.6 dB and crosstalk better than 228 dB, is presented. These spectrographs can be used for wavelength routing applications in wavelength division multiplexing (WDM) networks.
Alexandros Stavdas, Polina Bayvel, John E. Midwinter, "Design and performance of concave holographic gratings for applications as multiplexers/demultiplexers for wavelength routed optical networks," Optical Engineering 35(10), (1 October 1996). http://dx.doi.org/10.1117/1.600966
JOURNAL ARTICLE
8 PAGES


SHARE
KEYWORDS
Monochromatic aberrations

Optical design

Holography

Diffraction gratings

Wavefronts

Spectrographs

Spherical lenses

Back to Top