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High-precision passive stabilization of repetition rate for a mode-locked fiber laser based on optical pulse injection

Tingting Yu, Jian‐an Fang, Qiang Hao, Kangwen Yang, Ming Yan, Kun Huang, Heping Zeng

2021Optics Express17 citationsDOIOpen Access PDF

Abstract

We have proposed and implemented a novel scheme to obtain high-precision repetition rate stabilization for a polarization-maintaining mode-locked fiber laser. The essential technique lies in the periodic injection of electronically modulated optical pulses into a nonlinear amplifying loop mirror within the laser resonator. Thanks to the nonlinear cross-phase modulation effect, the injected pulses referenced to an external clock serves as a stable and precise timing trigger for an effective intensity modulator. Consequently, synchronous mode-locking can be initiated to output ultrafast pulses with a passively stabilized repetition rate. The capture range of the locking system reaches to a record of 1 mm, which enables a long-term stable operation over 15 hours without the need of temperature stabilization and vibration isolation. Meanwhile, the achieved standard deviation is as low as 100 μ Hz with a 1-s sample time, corresponding to a fluctuation instability of 5.0×10 −12 . Additionally, the repetition rate stabilization performance based on the passive synchronization has been systematically investigated by varying the average power, central wavelength and pulse duration of the optical injection.

Topics & Concepts

OpticsLaserMaterials scienceFiber laserMode-lockingUltrashort pulsePulse (music)Modulation (music)PhysicsAcousticsDetectorAdvanced Fiber Laser TechnologiesSolid State Laser TechnologiesPhotonic Crystal and Fiber Optics
High-precision passive stabilization of repetition rate for a mode-locked fiber laser based on optical pulse injection | Litcius