Broadband wavelength conversion at 40 Gb/s using long serpentine As2S3 planar waveguides

We demonstrate broadband wavelength conversion of a 40 Gb/s return-to-zero signal by cross- phase modulation in a newly developed chalcogenide glass waveguide based photonic chip. These new serpentine As2S3 waveguides offer a nonlinear coefficient approximate to 1700 W(-1)km(-1) with 5 x lower propagation loss over a length of 22.5 cm which ensures the full propagation length contributes towards the nonlinear process. This reduces the peak operating power thereby allowing a x 4 increase in the data rate compared with previous results. Spectral measurements show the device operates over a span of 40 nm while system measurements show just over 1 dB of power penalty at a bit- error rate of 10(-9). This is primarily due to the compact planar waveguide design which minimizes the effect of group-velocity dispersion. (c) 2007 Optical Society of America