Subband All-Pass Filter Architectures With Applications to Dispersion and Dispersion-Slope Compensation and Continuously Variable Delay Lines Academic Article uri icon

abstract

  • A new optical filter architecture is proposed that employs optical subband and all-pass filters but circumvents the typical tradeoff between passband width and peak delay inherent to all-pass filters. A filter design for a dispersion compensator with a tuning range of 1000 ps/nm and 95-GHz passband width on a 100-GHz grid is presented. Compared with a cascade architecture, a lower core-to-cladding index contrast for planar waveguide ring resonator implementations can be used, and lower filter losses are achieved, since the signal propagates through fewer all-pass filter stages for the same dispersion. A continuously variable delay line is designed with more than 90% bandwidth utilization. For a ten-stage all-pass filter with 25-GHz free spectral range (FSR) in a double-pass configuration, a 1000-ps continuous tuning range can be achieved. Finally, a dispersion-slope compensator design is presented with a change in dispersion of 700 ps/nm over a wavelength range determined by the filter FSR-to-channel-spacing ratio.

published proceedings

  • Journal of Lightwave Technology

altmetric score

  • 3

author list (cited authors)

  • Madsen, C. K.

citation count

  • 20

complete list of authors

  • Madsen, CK

publication date

  • January 1, 2003 11:11 AM