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

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 wit...

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Veröffentlicht in:	Optics express 2021-06, Vol.29 (13), p.20930-20940
Hauptverfasser:	Yu, Tingting, Fang, Jianan, Hao, Qiang, Yang, Kangwen, Yan, Ming, Huang, Kun, Zeng, Heping
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container_title	Optics express
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creator	Yu, Tingting Fang, Jianan Hao, Qiang Yang, Kangwen Yan, Ming Huang, Kun Zeng, Heping
description	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.
doi_str_mv	10.1364/OE.425435
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title	High-precision passive stabilization of repetition rate for a mode-locked fiber laser based on optical pulse injection
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