Temperature-driven, Symmetry-broken Nonlinear Polarization Evolution Method for Environmentally-stable, Sub-100-fs Mode-locked Fiber Oscillators
2023 Conference on Lasers and Electro-Optics (CLEO)(2023)
Abstract
We demonstrate a 96-fs, all-polarization-maintaining ytterbium fiber oscillator mode-locked with a temperature-driven, symmetry-broken nonlinear polarization evolution method. The central wavelength and output pulse energy were 1030 nm and 33.7 mW at 18.31 MHz, respectively.
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Key words
all-polarization-maintaining ytterbium fiber oscillator mode-locked,environmentally-stable,frequency 18.31 MHz,power 33.7 mW,sub-100-fs mode-locked fiber oscillators,symmetry-broken nonlinear polarization evolution method,temperature-driven,wavelength 1030.0 nm
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