Near a zero-dispersion wavelength, high-order dispersion effects play a central role in a photonic crystal fiber cavity. The study of such effects reveals the existence of stable dissipative dark solitons in the anomalous dispersion regime. Such dark localized structures are not present without high-order dispersion. They consist of dips in the profile of the intensity field. The number of dips and their temporal distribution are determined by the initial conditions. A snaking bifurcation diagram associated with these solutions is constructed.status: publishe
We report on the experimental observation of temporal anti-dark solitons in optical fibers. Under su...
We study dark solitons, namely density dips with a phase jump across the density minimum, in a one-d...
We present detailed studies on dark-bright vector solitons formed in dispersion- and birefringence-m...
We consider a photonic crystal fiber resonator pumped by a coherent injected beam. We show that temp...
We study the supercontinuum process in optical fibers numerically for a variety of dispersion profil...
The regions of existence and stability of dark solitons in the Lugiato-Lefever model with normal chr...
Taking up to fourth-order dispersion effects into account, we show that fiber resonators become stab...
We report on the numerical simulation and experimental observation of anti-dark solitons in fiber la...
Taking up to fourth-order dispersion effects into account, we show that fiber resonators become stab...
The generation and propagation of bright and dark soliton pulses is an area of great scientific inte...
In this first talk on dissipative structures in fiber applications, we extend theory of dispersion-m...
When ultrashort optical pulses propagate as a soliton inside optical fibers, the presence of higher-...
Using the Lugiato-Lefever model, we analyze the effects of third-order chromatic dispersion on the e...
Cette thèse a pour objectif l’étude expérimentale de la propagation de solitons sombres temporels au...
Taking up to fourth order dispersion effects into account, we show that fiber resonators become stab...
We report on the experimental observation of temporal anti-dark solitons in optical fibers. Under su...
We study dark solitons, namely density dips with a phase jump across the density minimum, in a one-d...
We present detailed studies on dark-bright vector solitons formed in dispersion- and birefringence-m...
We consider a photonic crystal fiber resonator pumped by a coherent injected beam. We show that temp...
We study the supercontinuum process in optical fibers numerically for a variety of dispersion profil...
The regions of existence and stability of dark solitons in the Lugiato-Lefever model with normal chr...
Taking up to fourth-order dispersion effects into account, we show that fiber resonators become stab...
We report on the numerical simulation and experimental observation of anti-dark solitons in fiber la...
Taking up to fourth-order dispersion effects into account, we show that fiber resonators become stab...
The generation and propagation of bright and dark soliton pulses is an area of great scientific inte...
In this first talk on dissipative structures in fiber applications, we extend theory of dispersion-m...
When ultrashort optical pulses propagate as a soliton inside optical fibers, the presence of higher-...
Using the Lugiato-Lefever model, we analyze the effects of third-order chromatic dispersion on the e...
Cette thèse a pour objectif l’étude expérimentale de la propagation de solitons sombres temporels au...
Taking up to fourth order dispersion effects into account, we show that fiber resonators become stab...
We report on the experimental observation of temporal anti-dark solitons in optical fibers. Under su...
We study dark solitons, namely density dips with a phase jump across the density minimum, in a one-d...
We present detailed studies on dark-bright vector solitons formed in dispersion- and birefringence-m...