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Differential phase-diversity electrooptic modulator for cancellation of fiber dispersion and laser noise

Ehsan Ordouie, Tianwei Jiang, Tingyi Zhou, Farzaneh Arab Juneghani, Mahdi Eshaghi, Milad G. Vazimali, Sasan Fathpour, Bahram Jalali

2023Nature Communications15 citationsDOIOpen Access PDF

Abstract

Bandwidth and noise are fundamental considerations in all communication and signal processing systems. The group-velocity dispersion of optical fibers creates nulls in their frequency response, limiting the bandwidth and hence the temporal response of communication and signal processing systems. Intensity noise is often the dominant optical noise source for semiconductor lasers in data communication. In this paper, we propose and demonstrate a class of electrooptic modulators that is capable of mitigating both of these problems. The modulator, fabricated in thin-film lithium niobate, simultaneously achieves phase diversity and differential operations. The former compensates for the fiber's dispersion penalty, while the latter overcomes intensity noise and other common mode fluctuations. Applications of the so-called four-phase electrooptic modulator in time-stretch data acquisition and in optical communication are demonstrated.

Topics & Concepts

Lithium niobatePhase noiseOpticsOptical communicationBandwidth (computing)Optical modulatorNoise (video)Differential phaseOptical fiberRelative intensity noisePhase modulationElectro-optic modulatorComputer sciencePhysicsLaserTelecommunicationsSemiconductor laser theoryArtificial intelligenceKeyingImage (mathematics)Photonic and Optical DevicesAdvanced Fiber Laser TechnologiesOptical Network Technologies
Differential phase-diversity electrooptic modulator for cancellation of fiber dispersion and laser noise | Litcius