We describe a simple, all-fiber, synchronous source of 110 GHz, 800fs bright solitons and 2.4ps dark pulses based on nonlinear beat-signal transformation techniques. Dark train modulation depths in excess of 80% are confirmed by cross-correlation of the two outputs
We report the generation of 114 Gbit/s trains of 250 fs fundamental solitons. The pulses are generat...
We propose and numerically demonstrate a simple method to generate a high-repetition-rate ultrashort...
International audienceWe experimentally demonstrate the generation of pulse trains with repetition r...
The generation and propagation of bright arid dark soliton pulses is of great scientific interest wi...
We report advances in the area of soliton generation using beat signal conversion. In particular, we...
International audienceWe theoretically propose and numerically validate an all-optical scheme to gen...
The authors report the first experimental demonstration of high-frequency dark soliton generation th...
A stable beat-signal produced by two comb-phase-locked CW lasers separated by >100 GHz is nonline...
This paper demonstrates a novel all-optical technique to generate a multigigahertz dark soliton trai...
International audienceUltra-high repetition rate quality pulse trains have been generated in a highl...
We experimentally demonstrate a novel optical beat-signal to soliton train conversion technique base...
The authors report the first error-free direct optical modulation of 40GHz pulses generated by a low...
We demonstrate 40GHz optical beat-signal to soliton train conversion employing a novel technique bas...
We experimentally demonstrate an all-fiber method to generate a high-quality femtosecond pulse train...
We report the generation of a 80-120 GHz train of 230-300 fs fundamental solitons at 1565 nm by an a...
We report the generation of 114 Gbit/s trains of 250 fs fundamental solitons. The pulses are generat...
We propose and numerically demonstrate a simple method to generate a high-repetition-rate ultrashort...
International audienceWe experimentally demonstrate the generation of pulse trains with repetition r...
The generation and propagation of bright arid dark soliton pulses is of great scientific interest wi...
We report advances in the area of soliton generation using beat signal conversion. In particular, we...
International audienceWe theoretically propose and numerically validate an all-optical scheme to gen...
The authors report the first experimental demonstration of high-frequency dark soliton generation th...
A stable beat-signal produced by two comb-phase-locked CW lasers separated by >100 GHz is nonline...
This paper demonstrates a novel all-optical technique to generate a multigigahertz dark soliton trai...
International audienceUltra-high repetition rate quality pulse trains have been generated in a highl...
We experimentally demonstrate a novel optical beat-signal to soliton train conversion technique base...
The authors report the first error-free direct optical modulation of 40GHz pulses generated by a low...
We demonstrate 40GHz optical beat-signal to soliton train conversion employing a novel technique bas...
We experimentally demonstrate an all-fiber method to generate a high-quality femtosecond pulse train...
We report the generation of a 80-120 GHz train of 230-300 fs fundamental solitons at 1565 nm by an a...
We report the generation of 114 Gbit/s trains of 250 fs fundamental solitons. The pulses are generat...
We propose and numerically demonstrate a simple method to generate a high-repetition-rate ultrashort...
International audienceWe experimentally demonstrate the generation of pulse trains with repetition r...