We report measurements of the reshaping of 0.3-psec dark pulses due to their passage through 10 m of single-mode optical fiber. The measurements were performed as a function of intensity and the observed strong reshaping agrees qualitatively with the predictions of the nonlinear Schrodinger equation which suggest that we have observed the formation of dark-pulse solitons.Peer reviewedElectrical and Computer Engineerin
An optical fiber is made of glass or plastic which carries light along its length. Light is kept in ...
The authors report the first experimental demonstration of high-frequency dark soliton generation th...
We prove theoretically, that the evolution of optical solitons can be dramatically influenced in the...
The generation and propagation of bright and dark soliton pulses is an area of great scientific inte...
The predictions of the nonlinear Schrodinger equation have been tested by passing 5.5-psec optical p...
It is shown experimentally and theoretically that a sinusoidally modulated pulse evolves with time i...
[[abstract]]The authors introduce a new type of solitary wave in a lossless single-mode fiber in whi...
We have observed the formation of an optical intensity shock and the subsequent wave breaking in the...
Cette thèse a pour objectif l’étude expérimentale de la propagation de solitons sombres temporels au...
International audienceWe report the experimental observation of dispersive wave emission from gray s...
This paper demonstrates a novel all-optical technique to generate a multigigahertz dark soliton trai...
This thesis presents experimental and theoretical work on the use of dark optical solitons as data c...
International audienceWe report the experimental observation of multiple dis-persive waves emitted i...
We report on the experimental observation of temporal anti-dark solitons in optical fibers. Under su...
International audienceWe present a new method to generate dark soliton trains by exploiting the inte...
An optical fiber is made of glass or plastic which carries light along its length. Light is kept in ...
The authors report the first experimental demonstration of high-frequency dark soliton generation th...
We prove theoretically, that the evolution of optical solitons can be dramatically influenced in the...
The generation and propagation of bright and dark soliton pulses is an area of great scientific inte...
The predictions of the nonlinear Schrodinger equation have been tested by passing 5.5-psec optical p...
It is shown experimentally and theoretically that a sinusoidally modulated pulse evolves with time i...
[[abstract]]The authors introduce a new type of solitary wave in a lossless single-mode fiber in whi...
We have observed the formation of an optical intensity shock and the subsequent wave breaking in the...
Cette thèse a pour objectif l’étude expérimentale de la propagation de solitons sombres temporels au...
International audienceWe report the experimental observation of dispersive wave emission from gray s...
This paper demonstrates a novel all-optical technique to generate a multigigahertz dark soliton trai...
This thesis presents experimental and theoretical work on the use of dark optical solitons as data c...
International audienceWe report the experimental observation of multiple dis-persive waves emitted i...
We report on the experimental observation of temporal anti-dark solitons in optical fibers. Under su...
International audienceWe present a new method to generate dark soliton trains by exploiting the inte...
An optical fiber is made of glass or plastic which carries light along its length. Light is kept in ...
The authors report the first experimental demonstration of high-frequency dark soliton generation th...
We prove theoretically, that the evolution of optical solitons can be dramatically influenced in the...