Add to ORKGWe report on the generation of high-average-power and high-peak-power ultrashort pulses from a mode-locked fiber laser operating in the all-normal-dispersion regime. As gain medium, a large-mode-area ytterbium-doped large-pitch photonic-crystal fiber is used. The self-starting fiber laser delivers 27 W of average power at 50:57 MHz repetition rate, resulting in 534 nJ of pulse energy. The laser produces positively chirped 2 ps output pulses, which are compressed down to sub-100 fs, leading to pulse peak powers as high as 3:2 MW. © 2011 Optical Society of America
The generation of 0.5 MW peak power 400 fs pulses from an all-normal mode-locked Ytterbium-doped sho...
Among fiber-based lasers, the availability of high energy and high peak-power pulsed sources is of c...
The development and advancement of high powered, sub-picosecond laser sources have been crucial to t...
We report on the generation of high-average-power and high-peak-power ultrashort pulses from a mode-...
We report the generation of 830 nJ energy from a mode-locked all-normal dispersion fiber laser featu...
We report the generation of high-energy high-peak power pulses in an all-normal dispersion fiber las...
We report on the generation of femtosecond pulses from an all-normal-dispersion fiber laser featurin...
We report on ultrashort high-energy pulse generation from an all-normal-dispersion fiber oscillator....
We demonstrate that nonlinear fiber compression is possible at unprecedented average power levels by...
We report on the generation of high-energy ultrashort pulses from a mode-locked Yb-doped large-mode-...
Because of their ultrashort pulse duration and extremely high peak power, interest in ultrashort pul...
We report on high-energy ultrashort pulse generation from a passively mode-locked ytterbium-doped la...
We study the impact of the mode-locking mechanism on the performances of a microjoule-class all-norm...
We review the main challenges and give design guidelines for high-peak-power high-average-power fibe...
Abstract — We demonstrate 25-fs laser pulse generation from a photonic crystal fiber (PCF) laser sys...
The generation of 0.5 MW peak power 400 fs pulses from an all-normal mode-locked Ytterbium-doped sho...
Among fiber-based lasers, the availability of high energy and high peak-power pulsed sources is of c...
The development and advancement of high powered, sub-picosecond laser sources have been crucial to t...
We report on the generation of high-average-power and high-peak-power ultrashort pulses from a mode-...
We report the generation of 830 nJ energy from a mode-locked all-normal dispersion fiber laser featu...
We report the generation of high-energy high-peak power pulses in an all-normal dispersion fiber las...
We report on the generation of femtosecond pulses from an all-normal-dispersion fiber laser featurin...
We report on ultrashort high-energy pulse generation from an all-normal-dispersion fiber oscillator....
We demonstrate that nonlinear fiber compression is possible at unprecedented average power levels by...
We report on the generation of high-energy ultrashort pulses from a mode-locked Yb-doped large-mode-...
Because of their ultrashort pulse duration and extremely high peak power, interest in ultrashort pul...
We report on high-energy ultrashort pulse generation from a passively mode-locked ytterbium-doped la...
We study the impact of the mode-locking mechanism on the performances of a microjoule-class all-norm...
We review the main challenges and give design guidelines for high-peak-power high-average-power fibe...
Abstract — We demonstrate 25-fs laser pulse generation from a photonic crystal fiber (PCF) laser sys...
The generation of 0.5 MW peak power 400 fs pulses from an all-normal mode-locked Ytterbium-doped sho...
Among fiber-based lasers, the availability of high energy and high peak-power pulsed sources is of c...
The development and advancement of high powered, sub-picosecond laser sources have been crucial to t...