Add to ORKGMultimode fibres (MMFs) are attracting interest in the study of spatiotemporal dynamics as well as in the context of ultrafast fibre sources, imaging and telecommunications. This interest stems from three differences compared with single-mode fibre structures: their spatiotemporal complexity (information capacity), the role of disorder, and their complex intermodal interactions. To date, MMFs have been studied in limiting cases in which one or more of these properties can be neglected. Here, we study a regime in which all these elements are integral. We observe a spatial beam-cleaning phenomenon that precedes spatiotemporal modulation instability. We provide evidence that the origin of these processes is a universal unstable attractor in gr...
Multimode optical fibres are enjoying renewed attention, boosted by the urgent need to overcome the ...
We observe a nonlinear spatial self-cleaning process in multimode fiber. Experiments and simulations...
International audienceWe report on the experimental observation of an intermodal noise-seeded modula...
We show that pulses launched into multimode fibers are attracted to the fundamental mode, which has ...
We observe the self-organization of light into its most spatiotemporally-unstable state through prop...
We study extremely complex nonlinear pulse propagation in long disordered multimode fibers. Light se...
Nonlinear mode coupling in multimode optical fibers leads to complex self-organization phenomena. Th...
We overview complex spatio-temporal propagation phenomena in nonlinear multimode optical fibers (MMF...
We observe experimentally a novel spatiotemporal dynamics of multimode fibers allowing for a new typ...
During the last years, multimode fibers (MMFs) were used as an experimental platform for the observa...
Spatiotemporal light beam dynamics in multimode optical fibers (MMFs) has emerged in recent years as...
International audienceClassical nonlinear waves exhibit a phenomenon of condensation that results fr...
Spatiotemporal light beam dynamics in multimode opti- cal fibers (MMFs) has emerged as a fertile dom...
We overview recent advances in the research on spatiotemporal beam shaping in nonlinear multimode op...
Multimode optical fibres are enjoying renewed attention, boosted by the urgent need to overcome the ...
We observe a nonlinear spatial self-cleaning process in multimode fiber. Experiments and simulations...
International audienceWe report on the experimental observation of an intermodal noise-seeded modula...
We show that pulses launched into multimode fibers are attracted to the fundamental mode, which has ...
We observe the self-organization of light into its most spatiotemporally-unstable state through prop...
We study extremely complex nonlinear pulse propagation in long disordered multimode fibers. Light se...
Nonlinear mode coupling in multimode optical fibers leads to complex self-organization phenomena. Th...
We overview complex spatio-temporal propagation phenomena in nonlinear multimode optical fibers (MMF...
We observe experimentally a novel spatiotemporal dynamics of multimode fibers allowing for a new typ...
During the last years, multimode fibers (MMFs) were used as an experimental platform for the observa...
Spatiotemporal light beam dynamics in multimode optical fibers (MMFs) has emerged in recent years as...
International audienceClassical nonlinear waves exhibit a phenomenon of condensation that results fr...
Spatiotemporal light beam dynamics in multimode opti- cal fibers (MMFs) has emerged as a fertile dom...
We overview recent advances in the research on spatiotemporal beam shaping in nonlinear multimode op...
Multimode optical fibres are enjoying renewed attention, boosted by the urgent need to overcome the ...
We observe a nonlinear spatial self-cleaning process in multimode fiber. Experiments and simulations...
International audienceWe report on the experimental observation of an intermodal noise-seeded modula...