High-Peak-Power Femtosecond Pulse Generation by Nonlinear Compression in a Yb-Doped Hybrid Fiber

We demonstrate a Yb-doped hybrid fiber with anomalous dispersion in the 1 μm spectral range, where asymptotically single-mode behavior is achieved with a differential mode amplification technique. The fiber has a dispersion of 70-100 ps/(nm⋅km) in the spectral range from 1.020 μ m to 1.055 μm and a...

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Bibliographic Details
Published in:IEEE photonics journal 2019-10, Vol.11 (5), p.1-11
Main Authors: Aleshkina, Svetlana S., Yatsenko, Yuri P., Salganskii, Mikhail Yu, Lipatov, Denis S., Senatorov, Andrei K., Tausenev, Anton V., Shepelev, Denis V., Bubnov, Mikhail M., Guryanov, Alexey N., Likhachev, Mikhail E.
Format: Article
Language:English
Subjects:
advanced optics design
Broadband
Compressors
Dispersion
Femtosecond pulses
Fiber lasers
fiber non-linear optics
Gain
Hybrid power systems
Narrowband
Pulse compression
Pulse generation
Spectra
Splicing
Ultrafast optics
Wavelength measurement
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Summary:We demonstrate a Yb-doped hybrid fiber with anomalous dispersion in the 1 μm spectral range, where asymptotically single-mode behavior is achieved with a differential mode amplification technique. The fiber has a dispersion of 70-100 ps/(nm⋅km) in the spectral range from 1.020 μ m to 1.055 μm and a sharp dispersion peak (approximately 400 ps/(nm·km) near 1.064 μ m) caused by the modes anti-crossing. The relatively large hybrid mode field diameter (8 μm) allows us to demonstrate high-peak-power femtosecond pulse generation via nonlinear chirped pulse compression in both dispersion regimes. Operation near 1.064 μm allows us to compress narrowband (3 dB spectral width of 2 nm) 6 ps pulses down to a duration of 250 fs with a peak power of 3.3 kW. Operation in the spectral region with a nearly constant anomalous dispersion is found to be optimal for the compression of wideband pulses. In particular, 1 ps pulses centered at 1.03 μm with a spectral width of approximately 11 nm are compressed down to 90 fs with a peak power of approximately 10 kW, which to the best of our knowledge is the best result for all-fiber (i.e., without external bulk compressors) systems operating near 1 μm.
ISSN:1943-0655
1943-0655
1943-0647
DOI:10.1109/JPHOT.2019.2937821