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Automated control algorithms for silicon photonic polarization receiver

Minglei Ma, Hossam Shoman, Keyi Tang, Sudip Shekhar, Nicolas A. F. Jaeger, Lukas Chrostowski

2020Optics Express46 citationsDOIOpen Access PDF

Abstract

We demonstrate greedy linear descent-based, basic gradient descent-based, two-point step size gradient descent-based, and two-stage optimization method-based automated control algorithms and examine their performance for use with a silicon photonic polarization receiver. With an active feedback loop control process, time-varying arbitrary polarization states from an optical fiber can be automatically adapted and stabilized to the transverse-electric (TE) mode of a single-mode silicon waveguide. Using the proposed control algorithms, we successfully realize automated adaptations for a 10 Gb/s on-off keying signal in the polarization receiver. Based on the large-signal measurement results, the control algorithms are examined and compared with regard to the iteration number and the output response. In addition, we implemented a long-duration experiment to track, adapt, and stabilize arbitrary input polarization states using the two-point step size gradient descent-based and two-stage optimization method-based control algorithms. The experimental results show that these control algorithms enable the polarization receiver to achieve real-time and continuous polarization management.

Topics & Concepts

Gradient descentPolarization (electrochemistry)Computer sciencePhotonicsSilicon photonicsAlgorithmOpticsPhysicsChemistryArtificial neural networkPhysical chemistryMachine learningPhotonic and Optical DevicesOptical Network TechnologiesAdvanced Fiber Laser Technologies