Dissipative soliton pulses in a synchronously pumped all-normal-dispersion Raman fiber laser is presented theoretically and experimentally. The laser generates 7.1 nJ intra-cavity pulses at 1.12 μm and is compressed to 136 fs. © 2015 IEEE
We extend the theory of dispersion-managed solitons to dissipative systems with a focus on mode-lock...
Passively mode-locked fiber lasers due to their capability of generating ultrashort pulses, low cost...
A high-efficiency Raman conversion from 1.987 μm to 2.177 μm is demonstrated experimentally in 45 m ...
The dissipative soliton regime is one of the most advanced ways to generate high-energy femtosecond ...
Dispersion, nonlinearity and gain determine the intracavity pulse behaviour. We show that pump deple...
We report the numerical demonstration of the transformation from dissipative solitons to amplifier s...
We present a novel fiber source of ultrashort pulses at the wavelength of 1660 nm based on the techn...
We report on ultrashort high-energy pulse generation from an all-normal-dispersion fiber oscillator....
The all-fiber highly-chirped dissipative soliton (HCDS) oscillator was realised at 1.5 Μm wavelength...
As ultrafast laser technology has found expanding application in machining, spectroscopy, microscopy...
Summary form only given. High power mode-locked (ML) fiber lasers generating femtosecond pulses in t...
We have experimentally investigated the generation and propagation of square dissipative solitons em...
For the first time, we demonstrate the possibility to switch between three distinct pulse regimes in...
Abstract: We experimentally demonstrate the generation of soliton-like pulses with 195–230 fs durati...
We extend the theory of dispersion-managed solitons to dissipative systems with a focus on mode-lock...
Passively mode-locked fiber lasers due to their capability of generating ultrashort pulses, low cost...
A high-efficiency Raman conversion from 1.987 μm to 2.177 μm is demonstrated experimentally in 45 m ...
The dissipative soliton regime is one of the most advanced ways to generate high-energy femtosecond ...
Dispersion, nonlinearity and gain determine the intracavity pulse behaviour. We show that pump deple...
We report the numerical demonstration of the transformation from dissipative solitons to amplifier s...
We present a novel fiber source of ultrashort pulses at the wavelength of 1660 nm based on the techn...
We report on ultrashort high-energy pulse generation from an all-normal-dispersion fiber oscillator....
The all-fiber highly-chirped dissipative soliton (HCDS) oscillator was realised at 1.5 Μm wavelength...
As ultrafast laser technology has found expanding application in machining, spectroscopy, microscopy...
Summary form only given. High power mode-locked (ML) fiber lasers generating femtosecond pulses in t...
We have experimentally investigated the generation and propagation of square dissipative solitons em...
For the first time, we demonstrate the possibility to switch between three distinct pulse regimes in...
Abstract: We experimentally demonstrate the generation of soliton-like pulses with 195–230 fs durati...
We extend the theory of dispersion-managed solitons to dissipative systems with a focus on mode-lock...
Passively mode-locked fiber lasers due to their capability of generating ultrashort pulses, low cost...
A high-efficiency Raman conversion from 1.987 μm to 2.177 μm is demonstrated experimentally in 45 m ...
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