Title :
Reset-free integrated polarization controller using phase shifters
Author :
Madsen, C.K. ; Oswald, P. ; Cappuzzo, M. ; Chen, E. ; Gomez, L. ; Griffin, A. ; Kasper, A. ; Laskowski, E. ; Stulz, L. ; Wong-Foy, A.
Author_Institution :
Lucent Technol. Bell Labs., USA
Abstract :
An endless, reset-free polarization controller implemented with planar lightwave circuits using phase shifters for tuning is proposed and demonstrated. By avoiding the need for tunable polarization mode converters, simple fabrication processes and a large range of material systems can be used, since neither the electrooptic effect nor a rotatable birefringence axis are necessary for device operation. The proof of concept is demonstrated by implementing the equivalent of a rotating waveplate using Ge-doped silica-on-silicon waveguides and thermooptic phase shifters. The polarization controller is shown to have excellent tolerance to fabrication variations. Fast thermooptic control (on the order of 10 kHz) is achieved using high-index-contrast (4%) waveguides.
Keywords :
germanium; integrated optics; optical communication equipment; optical control; optical phase shifters; optical retarders; optical tuning; optical waveguides; silicon; silicon compounds; thermo-optical devices; Ge-doped silica-on-silicon waveguides; SiO2-Si:Ge; integrated polarization controller; planar lightwave circuits; rotating waveplate; thermooptic control; thermooptic phase shifters; tuning; Circuits; Costs; Electrooptic effects; Fabrication; Lighting control; Lithium niobate; Optical polarization; Optical retarders; Phase shifters; Polarization mode dispersion; Planar lightwave circuits (PLCs); polarization control; polarization mode dispersion;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2005.846538
