Journal
OPTICS AND LASER TECHNOLOGY
Volume 153, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.optlastec.2022.108206
Keywords
Gigahertz repetition rate; Tm-doped fiber oscillator; Harmonic mode-locking; Fiber amplifier
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Funding
- National Natural Science Foundation of China [62005144, 61775119, 62175128]
- Natural Science Foundation of Shandong Province [ZR2020QF096]
- Qilu Young Scholar Program of Shandong University
- Taishan Scholar Foundation of Shandong Province [tsqn201812010]
- High-level Talent Cultivation Funds of State Key Laboratory of Crystal Materials of Shandong University
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The gigahertz-pulse repetition rate, 2-μm harmonic mode-locking Tm-doped fiber oscillator is achieved using the nonlinear polarization rotation method. The oscillator operates in either < 2000-nm or > 2000-nm region and delivers high output powers with short pulse durations at different wavelengths.
The gigahertz (GHz)-pulse repetition rate, 2-mu m harmonic mode-locking (HML) Tm-doped fiber oscillator is realized with the nonlinear polarization rotation method. The fundamental pulse repetition rate is 95.8 MHz, which is further increased to 1.25 GHz at 1962 nm, 1.63 GHz at 1982 nm, and 1.05 GHz at 2005 nm with a high super-mode suppression above 37 dB respectively. It is believed to be the first report on the GHz Tm-doped fiber oscillators, which can optionally operate in < 2000-nm or > 2000-nm region. The HML fiber oscillator delivers maximum output powers of 480 mW, 538 mW and 340 mW and at each wavelength, which are the largest output powers never reported from previous GHz 2-mu m fiber oscillators. The pulse durations in each wavelength are all < 500 fs. The laser pulse with the highest pulse repetition rate is further scaled up to ~ 4 W. The observed spectral narrowing and soliton self-frequency shift in the fiber amplifier are further analyzed with a theoretical model, which matches well with the experimental results.
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