Add to ORKGWe report the generation of stable, CW soliton trains at 1.551µm using a technique based on the nonlinear propagation of a beat-signal in a dispersion-tailored fibre system. Repetition rates in the range 60-90 Gbit/s and mark-space ratios in the range 1:5 to 1:11 were obtained
We report on the performance of a low timing-jitter, diode-driven, Nd:YLF pumped 5ps, 30-40 GHz soli...
A prominent advantage of solitons is that they have stable propagation characteristics and are very ...
This thesis presents the results of numerical modelling of the propagation of dispersion managed sol...
We report the generation of a 70 Gbit/s CW soliton train with a mark-space ratio of 1:11 from a fibr...
We experimentally demonstrate a novel optical beat-signal to soliton train conversion technique base...
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...
We demonstrate 40GHz optical beat-signal to soliton train conversion employing a novel technique bas...
Pulse propagation in optical fibre communication systems is affected by the fibre nonlinearity even ...
We demonstrate an ultra high-repetition-rate tunable source of soliton pulses based on the non-linea...
The authors report the first experimental demonstration of high-frequency dark soliton generation th...
We report the generation of a 80-120 GHz train of 230-300 fs fundamental solitons at 1565 nm by an a...
The idea of varying the axial distribution of dispersion along a length of optical fibre as a means ...
Experimental observation of the 1D Kerr-Type cavity solitonTemporal cavity solitons constitute a rem...
A computational study of the propagation stability of trains of bright solitons in monomode birefrin...
We report on the performance of a low timing-jitter, diode-driven, Nd:YLF pumped 5ps, 30-40 GHz soli...
A prominent advantage of solitons is that they have stable propagation characteristics and are very ...
This thesis presents the results of numerical modelling of the propagation of dispersion managed sol...
We report the generation of a 70 Gbit/s CW soliton train with a mark-space ratio of 1:11 from a fibr...
We experimentally demonstrate a novel optical beat-signal to soliton train conversion technique base...
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...
We demonstrate 40GHz optical beat-signal to soliton train conversion employing a novel technique bas...
Pulse propagation in optical fibre communication systems is affected by the fibre nonlinearity even ...
We demonstrate an ultra high-repetition-rate tunable source of soliton pulses based on the non-linea...
The authors report the first experimental demonstration of high-frequency dark soliton generation th...
We report the generation of a 80-120 GHz train of 230-300 fs fundamental solitons at 1565 nm by an a...
The idea of varying the axial distribution of dispersion along a length of optical fibre as a means ...
Experimental observation of the 1D Kerr-Type cavity solitonTemporal cavity solitons constitute a rem...
A computational study of the propagation stability of trains of bright solitons in monomode birefrin...
We report on the performance of a low timing-jitter, diode-driven, Nd:YLF pumped 5ps, 30-40 GHz soli...
A prominent advantage of solitons is that they have stable propagation characteristics and are very ...
This thesis presents the results of numerical modelling of the propagation of dispersion managed sol...