An Optimal Polarization Tracking Algorithm for Lithium-Niobate-based   Polarization Controllers

Joaquim D. Garcia; Gustavo C. Amaral

arXiv:1603.06751·cs.SY·October 15, 2018

An Optimal Polarization Tracking Algorithm for Lithium-Niobate-based Polarization Controllers

Joaquim D. Garcia, Gustavo C. Amaral

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TL;DR

This paper introduces an optimal algorithm for polarization tracking in Lithium-Niobate-based controllers, involving calibration, rotation, and stabilization, with theoretical modeling and numerical simulation demonstrating its effectiveness.

Contribution

It presents a novel optimal algorithm and theoretical model for polarization tracking in Lithium-Niobate-based controllers, validated through MATLAB simulations.

Findings

01

Successful numerical simulation results

02

Effective polarization state stabilization

03

Accurate device calibration methodology

Abstract

We present an optimal algorithm for the three-stage arbitrary polarization tracking using Lithium-Niobate-based Polarization Controllers: device calibration, polarization state rotation, and stabilization. The theoretical model representing the lithium-niobate-based polarization controller is derived and the methodology is successfully applied. Results are numerically simulated in the MATLAB environment.

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Code & Models

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joaquimg/PolarizationControl
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