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A Longitude-Purification Mechanism for Tunable Fiber Laser Based on Distributed Feedback

Laiyang Dang, Ligang Huang, Yujia Li, Yulong Cao, Tianyi Lan, Iroegbu Paul Ikechukwu, Zhewei Cao, Kun Mei, Lei Liang, Sen Fu, Guolu Yin, Tao Zhu

2021Journal of Lightwave Technology24 citationsDOI

Abstract

Advanced applications in optical frequency metrology demand improved tunable lasers with high coherence. Herein, a tunable single-frequency fiber laser based on the longitude-purification induced by the distributed feedback has been demonstrated. The key device in the proposed laser structure is a distributed self-injection feedback structure (DSIFS) which function as a mode selector to have a robust frequency-domain mode suppression and wavelength adaptability. Our work is distinctly focused on the theoretical analysis of the formation process of single-longitudinal-mode (SLM) laser output and the wavelength adaptive characteristics in the DSIFS. In this experiment, the side mode suppression of the resonant longitudinal modes can be achieved in a fiber ring laser without any accurate control of the main cavity. The fiber laser obtained a compressed laser linewidth of 855 Hz, enhanced side mode suppression ratio (SMSR) of ∼67 dB, and frequency noise suppression of 40 dB. Furthermore, the fiber laser can be tuned over the entire flat gain region. The measured output power, wavelength and SMSR variations of the proposed laser over a long-term observation are less than 0.034 mW, 0.028 nm and 2.53 dB, respectively. In addition, the SLM operation of the laser can also be obtained at different pump power for every wavelength channel. Moreover, this method is applicable to any other gain-type lasers, indicating that the longitude-purification mechanism has a broad application prospect in other highly coherent tunable lasers.

Topics & Concepts

Laser linewidthFiber laserLaserMaterials scienceOpticsDistributed feedback laserTunable laserLaser power scalingLongitudinal modeInjection seederWavelengthSingle-mode optical fiberOptoelectronicsPhysicsAdvanced Fiber Laser TechnologiesAdvanced Fiber Optic SensorsPhotonic and Optical Devices