E. Rubino scite author profile

Optical solitons or solitonlike states shed light to blueshifted frequencies through a resonant emission process. We predict a mechanism by which a second propagating mode is generated. This mode, called negative resonant radiation, originates from the coupling of the soliton mode to the negative-frequency branch of the dispersion relation. Measurements in both bulk media and photonic-crystal fibers confirm our predictions.

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Experimental evidence of analogue Hawking radiation from ultrashort laser pulse filaments

Rubino

Belgiorno

Cacciatori

et al. 2011

New J. Phys.

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Soliton-induced relativistic-scattering and amplification

Rubino

Lotti

Belgiorno

et al. 2012

Sci Rep

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Solitons are of fundamental importance in photonics due to applications in optical data transmission and also as a tool for investigating novel phenomena ranging from light generation at new frequencies and wave-trapping to rogue waves. Solitons are also moving scatterers: they generate refractive index perturbations moving at the speed of light. Here we found that such perturbations scatter light in an unusual way: they amplify light by the mixing of positive and negative frequencies, as we describe using a first Born approximation and numerical simulations. The simplest scenario in which these effects may be observed is within the initial stages of optical soliton propagation: a steep shock front develops that may efficiently scatter a second, weaker probe pulse into relatively intense positive and negative frequency modes with amplification at the expense of the soliton. Our results show a novel all-optical amplification scheme that relies on soliton induced scattering.

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E. Rubino

Hawking Radiation from Ultrashort Laser Pulse Filaments

Belgiornoet al.Reply:

Negative-Frequency Resonant Radiation

Experimental evidence of analogue Hawking radiation from ultrashort laser pulse filaments

Soliton-induced relativistic-scattering and amplification

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