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>10 GHz femtosecond fiber laser system at 2.0 μm

Zhaoheng Liang, Wei Lin, Jingfeng Wu, Xuewen Chen, Yuankai Guo, Lin Ling, Xiaoming Wei, Zhongmin Yang

2022Optics Letters28 citationsDOI

Abstract

We demonstrate a high-power 2.0-μm fiber laser system delivering femtosecond pulses with a fundamental repetition rate of >10 GHz, the highest value so far, to the best of our knowledge. The seed is a self-started fundamentally mode-locked Tm-doped fiber laser that has excellent power and spectral stabilities. The laser system can provide an average power of >600 mW, and the use of soliton-effect-based pulse compression allows the achievement of a pulse duration of 163 fs, leading to a compression factor of ∼ 13. It is anticipated that this new high-power femtosecond fiber laser with a 10-GHz-level fundamental repetition rate can serve as a promising light source for various applications, including laser surgery, micromachining, frequency comb spectroscopy, and nonlinear frequency conversion.

Topics & Concepts

OpticsMaterials scienceFiber laserFemtosecondFemtosecond pulse shapingLaserPulse compressionOptical fiberOptoelectronicsLaser power scalingSelf-phase modulationPulse shapingFrequency combPolarization-maintaining optical fiberMultiphoton intrapulse interference phase scanPulse (music)Pulse durationFiberDistributed feedback laserFiber optic sensorUltrafast laser spectroscopyPhotonic-crystal fiberDispersion-shifted fiberFiber Bragg gratingNonlinear opticsChirped pulse amplificationUltrashort pulseMode-lockingInjection seederFar-infrared laserX-ray laserHigh harmonic generationAdvanced Fiber Laser TechnologiesPhotonic Crystal and Fiber OpticsSolid State Laser Technologies
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