Title :
Wavelength Division Demultiplexing and Crosstalk Assessment of a Photonic Crystal Filter
Author :
Lenglé, Kevin ; Gay, Mathilde ; Bramerie, Laurent ; Simon, Jean Claude ; Combrié, Sylvain ; Lehoucq, Gaëlle ; De Rossi, Alfredo ; Malaguti, Stefania ; Bellanca, Gaetano ; Trillo, Stefano
Author_Institution :
Foton Lab., Univ. Europenne de Bretagne (UEB), Lannion, France
Abstract :
We report on the design, fabrication, and characterization of a filter for demultiplexing in the wavelength division domain achieved with a H0 cavity on a III-V photonic crystal (PhC) membrane. This device is single mode, the total insertion losses are about 10.5 dB, the drop efficiency is close to 40%, and the channel isolation can exceed 20 dB at 500 GHz. A 28-Gb/s nonreturn to zero (NRZ) wavelength demultiplexing shows <; 0.5-dB penalties. Crosstalk measurements demonstrate <; 1-dB penalty when adjacent channels are spaced as closely as 235 GHz, demonstrating that this filter has good compatibility with LAN-wavelength division multiplexing. Finally, a 56-Gb/s NRZ-differential quadrature phase-shift keying signal filtering is assessed, revealing a negligible penalty of ( <; 0.5 dB).
Keywords :
III-V semiconductors; channel spacing; demultiplexing; differential phase shift keying; optical communication equipment; optical crosstalk; optical design techniques; optical fabrication; optical fibre LAN; optical filters; optical materials; optical modulation; photonic crystals; wavelength division multiplexing; III-V photonic crystal membrane; NRZ; bit rate 28 Gbit/s; bit rate 56 Gbit/s; channel isolation; channel spacing; crosstalk assessment; differential quadrature phase-shift keying signal filtering; drop efficiency; frequency 500 GHz; insertion losses; nonreturn to zero; photonic crystal filter; wavelength division demultiplexing; Band pass filters; Bit error rate; Cavity resonators; Filtering theory; Optical fiber filters; Photonic crystals; Optical filters; optical signal processing; photonic crystal waveguide; photonic integrated circuits; wavelength division demultiplexing;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2012.2220961
