International audienceWe present a new method to generate dark soliton trains by exploiting the interaction between two time-delayed optical similaritons with the same wavelength. The temporal overlap of two similariton pulses creates a sinusoidal beating which subsequently evolves into an ultrahigh repetition-rate train of dark solitons through the combined effects of normal dispersion, nonlinearity, and adiabatic Raman gain. The experimental results are in good agreement with numerical predictions. We also investigate how the the repetition rate of the dark soliton train depends on the time separation between the initial pulses, the initial pulse energy, and the Raman gain. Finally, we numerically study the interaction between three simil...
The dissipative soliton regime is one of the most advanced ways to generate high-energy femtosecond ...
This paper demonstrates a novel all-optical technique to generate a multigigahertz dark soliton trai...
International audienceParabolic pulses in optical fibers have stimulated an increasing number of app...
International audienceWe present a new method to generate dark soliton trains by exploiting the inte...
This thesis presents the generation of optical similaritons in a normally dispersive Raman amplifier...
National audienceWe investigate theoretically and experimentally the dynamics of the self-similar am...
I have discovered that in the coherent regime of ultrabroad-bandwidth Raman generation, a large numb...
International audienceWe report the experimental observation of multiple dis-persive waves emitted i...
International audienceWe report the experimental observation of dispersive wave emission from gray s...
We prove theoretically, that the evolution of optical solitons can be dramatically influenced in the...
Cette thèse a pour objectif l’étude expérimentale de la propagation de solitons sombres temporels au...
We report measurements of the reshaping of 0.3-psec dark pulses due to their passage through 10 m of...
International audienceParabolic pulses in optical fibers have stimulated an increasing number of app...
Similarity transformation and Hirota bilinearization are deployed to derive exact bright and dark ul...
We demonstrate that the optical event horizon can provide an effective technique to actively control...
The dissipative soliton regime is one of the most advanced ways to generate high-energy femtosecond ...
This paper demonstrates a novel all-optical technique to generate a multigigahertz dark soliton trai...
International audienceParabolic pulses in optical fibers have stimulated an increasing number of app...
International audienceWe present a new method to generate dark soliton trains by exploiting the inte...
This thesis presents the generation of optical similaritons in a normally dispersive Raman amplifier...
National audienceWe investigate theoretically and experimentally the dynamics of the self-similar am...
I have discovered that in the coherent regime of ultrabroad-bandwidth Raman generation, a large numb...
International audienceWe report the experimental observation of multiple dis-persive waves emitted i...
International audienceWe report the experimental observation of dispersive wave emission from gray s...
We prove theoretically, that the evolution of optical solitons can be dramatically influenced in the...
Cette thèse a pour objectif l’étude expérimentale de la propagation de solitons sombres temporels au...
We report measurements of the reshaping of 0.3-psec dark pulses due to their passage through 10 m of...
International audienceParabolic pulses in optical fibers have stimulated an increasing number of app...
Similarity transformation and Hirota bilinearization are deployed to derive exact bright and dark ul...
We demonstrate that the optical event horizon can provide an effective technique to actively control...
The dissipative soliton regime is one of the most advanced ways to generate high-energy femtosecond ...
This paper demonstrates a novel all-optical technique to generate a multigigahertz dark soliton trai...
International audienceParabolic pulses in optical fibers have stimulated an increasing number of app...