We show that pulses undergoing wave-breaking (shock formation) in fibers in the normal dispersion regime can emit resonant (Cherenkov) radiation similarly to solitons. We predict the radiated frequencies and reveal a diversity of possible scenarios
We present a simple yet effective theory that predicts the existence of resonant radiation bands in ...
International audienceWe analyze resonant radiation emitted by dispersive shock waves owing to highe...
We investigate the phenomenon of resonant radiation emitted by Peregrine solitons. We show that, unl...
We show that pulses undergoing wave breaking in nonlinear weakly dispersive fibers radiate, owing to...
We demonstrate a simple, fully analytic method of calculating the amount of radiation emitted by opt...
We discuss the physics of shock waves with special emphasis on the phenomena related to the field of...
Solitons forming inside optical fibers are perturbed by several higher-order dispersive and nonlinea...
We report the evolution of resonant radiation (RR) in a self-defocused nonlinear medium with two zer...
The multifaceted nature of nonlinear multimode optical fibers has provided a fertile ground for obse...
We experimentally observed the emission of phase-matched resonant radiation in the form of solitonic...
Redshifted solitonic resonant radiation (RR) is a fascinating phase-matching phenomenon that occurs ...
We review the models and the experiments on wave-breaking and dispersive shock phenomena occurring i...
Fundamental physical phenomena such as laser-induced ionization, driven quantum tunneling, Faraday ...
Recent progress in generation of optical pulses of durations comparable to one optical cycle has pre...
We study the supercontinuum process in optical fibers numerically for a variety of dispersion profil...
We present a simple yet effective theory that predicts the existence of resonant radiation bands in ...
International audienceWe analyze resonant radiation emitted by dispersive shock waves owing to highe...
We investigate the phenomenon of resonant radiation emitted by Peregrine solitons. We show that, unl...
We show that pulses undergoing wave breaking in nonlinear weakly dispersive fibers radiate, owing to...
We demonstrate a simple, fully analytic method of calculating the amount of radiation emitted by opt...
We discuss the physics of shock waves with special emphasis on the phenomena related to the field of...
Solitons forming inside optical fibers are perturbed by several higher-order dispersive and nonlinea...
We report the evolution of resonant radiation (RR) in a self-defocused nonlinear medium with two zer...
The multifaceted nature of nonlinear multimode optical fibers has provided a fertile ground for obse...
We experimentally observed the emission of phase-matched resonant radiation in the form of solitonic...
Redshifted solitonic resonant radiation (RR) is a fascinating phase-matching phenomenon that occurs ...
We review the models and the experiments on wave-breaking and dispersive shock phenomena occurring i...
Fundamental physical phenomena such as laser-induced ionization, driven quantum tunneling, Faraday ...
Recent progress in generation of optical pulses of durations comparable to one optical cycle has pre...
We study the supercontinuum process in optical fibers numerically for a variety of dispersion profil...
We present a simple yet effective theory that predicts the existence of resonant radiation bands in ...
International audienceWe analyze resonant radiation emitted by dispersive shock waves owing to highe...
We investigate the phenomenon of resonant radiation emitted by Peregrine solitons. We show that, unl...
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