Litcius/Paper detail

Unveiling delay-time-resolved phase noise statistics of narrow-linewidth laser via coherent optical time domain reflectometry

Liang Zhang, Liang Chen, Xiaoyi Bao

2020Optics Express20 citationsDOIOpen Access PDF

Abstract

Laser with high spectral purity plays a crucial role in high-precision optical metrology and coherent communication. Thanks to the rapid development of laser frequency stabilization, the laser phase noise can be remarkably compensated, allowing its ultra-narrow linewidth subject to mostly quantum limit. Nevertheless, the accurate characterization of phase noise statistics and its linewidth of a highly coherent laser remains ambiguous and challenging. Here, we present an approach capable of revealing delay-time-resolved phase noise statistics of a coherent laser based on coherent optical time domain reflectometry (COTDR), in which distributed Rayleigh scattering along a delay fiber essentially allows a time-of-flight mapping of a heterodyne beating signal associated with delay-time-dependent phase information from a single laser source. Ultimately, this novel technique facilitates precise measurement of ultra-narrow laser linewidth by exploiting its delay-time-resolved phase jitter statistics of random fiber laser with pump lasers of various linewidths, confirmed with the analytical modeling and numerical simulations.

Topics & Concepts

Laser linewidthOpticsPhase noiseReflectometryLaserPhysicsFiber laserRayleigh scatteringHeterodyne detectionDistributed feedback laserPhase (matter)Quantum noiseTime domainJitterRelative intensity noiseNoise (video)Speckle patternMetrologyCoherence (philosophical gambling strategy)InterferometryMaterials scienceOptical fiberQuantum opticsSemiconductor laser theoryShot noisePhase modulationSpeckle noisePhase retrievalHeterodyne (poetry)Advanced Fiber Laser TechnologiesAdvanced Frequency and Time StandardsSemiconductor Lasers and Optical Devices