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All-passive multiple-place optical phase noise cancellation

Liang Hu, Ruimin Xue, Xueyang Tian, Guiling Wu, Jianping Chen

2021Optics Letters19 citationsDOIOpen Access PDF

Abstract

We report on the realization of delivering coherent optical frequency to multiple places based on passive phase noise cancellation over a bus topology fiber network. This technique mitigates any active servo controller on the main fiber link and at arbitrary access places as opposed to the conventional technique, in which an active phase compensation circuit has to be adopted to stabilize the main fiber link. Although the residual fiber phase noise power spectral density in the proposed technique turns out to be a factor of seven higher than that of in the conventional multiple-access technique when the access place is close to the end of the fiber link, it could largely suppress the phase noise introduced by the servo bumps, improve the response speed and phase recovery time, and minimize hardware overhead in systems with many stations and connections without the need for active servo circuits including phase discriminators and active compensators. The proposed technique could considerably simplify future efforts to make precise optical frequency signals available to many users, as required by some large-scale science experiments.

Topics & Concepts

Phase noiseComputer scienceActive noise controlElectronic engineeringNoise (video)Overhead (engineering)Optical fiberOpticsCompensation (psychology)Realization (probability)Fiber Bragg gratingPhase (matter)Electronic circuitFiber optic sensorPower (physics)Phase modulationFiberRelative intensity noiseController (irrigation)PhysicsPhase detectorServomechanismPolarization-maintaining optical fiberServoMulti-mode optical fiberOptical Network TechnologiesAdvanced Frequency and Time StandardsAdvanced Photonic Communication Systems
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