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The Influence of Noise Floor on the Measurement of Laser Linewidth Using Short-Delay-Length Self-Heterodyne/Homodyne Techniques

Zhongan Zhao, Zhenxu Bai, Duo Jin, Xiaojing Chen, Yaoyao Qi, Jie Ding, Bingzheng Yan, Yulei Wang, Zhiwei Lü, Richard P. Mildren

2022Micromachines26 citationsDOIOpen Access PDF

Abstract

Delayed self-heterodyne/homodyne measurements based on an unbalanced interferometer are the most used methods for measuring the linewidth of narrow-linewidth lasers. They typically require the service of a delay of six times (or greater) than the laser coherence time to guarantee the Lorentzian characteristics of the beat notes. Otherwise, the beat notes are displayed as a coherent envelope. The linewidth cannot be directly determined from the coherence envelope. However, measuring narrow linewidths using traditional methods introduces significant errors due to the 1/f frequency noise. Here, a short fiber-based linewidth measurement scheme was proposed, and the influence of the noise floor on the measurement of the laser linewidth using this scheme was studied theoretically and experimentally. The results showed that this solution and calibration process is capable of significantly improving the measurement accuracy of narrow linewidth.

Topics & Concepts

Laser linewidthDirect-conversion receiverOpticsBeat (acoustics)Coherence (philosophical gambling strategy)LaserInterferometryEnvelope (radar)PhysicsHomodyne detectionCoherence lengthCoherence timeHeterodyne detectionComputer scienceTelecommunicationsRadarQuantum mechanicsSuperconductivityAdvanced Fiber Laser TechnologiesSemiconductor Lasers and Optical DevicesPhotonic and Optical Devices
The Influence of Noise Floor on the Measurement of Laser Linewidth Using Short-Delay-Length Self-Heterodyne/Homodyne Techniques | Litcius