Add to ORKGWe report the generation of a 80-120 GHz train of 230-300 fs fundamental solitons at 1565 nm by an all-fibre component based source. The technique relies upon the conversion of an intense optical beat-signal into a soliton train as a result of nonlinear propagation in a fibre of steadily decreasing dispersion generated through Raman self-scattering of a dual frequency beat signal
We have experimentally demonstrated transmission of 800 fs solitons over 150 dispersion lengths of d...
We describe a simple, all-fiber, synchronous source of 110 GHz, 800fs bright solitons and 2.4ps dark...
We report for the first time the generation of 50 fs solitons from an all-fibre circuit comprising a...
We report the generation of 114 Gbit/s trains of 250 fs fundamental solitons. The pulses are generat...
We investigate femtosecond pulse propagation in photonic crystal fiber, reporting the generation of ...
femtosecond soliton pulse generation is demonstrated for the first time using fiber laser, periodica...
We report the generation of a 70 Gbit/s CW soliton train with a mark-space ratio of 1:11 from a fibr...
The development of erbium-doped optical fibre amplifiers with gain in excess of 40dB and a bandwidth...
We experimentally demonstrate a novel optical beat-signal to soliton train conversion technique base...
We demonstrate both experimentally and theoretically the generation of single and pairs of sub-100 f...
We report the generation of stable, CW soliton trains at 1.551µm using a technique based on the nonl...
We demonstrate 40GHz optical beat-signal to soliton train conversion employing a novel technique bas...
We demonstrate a 3 GHz repetition rate, femtosecond Raman soliton source with its wavelength tunable...
One of the most outstanding achievements of laser physics in recent years is, undoubtedly, the devel...
We demonstrate a novel technique based on soliton propagation through several different types of fib...
We have experimentally demonstrated transmission of 800 fs solitons over 150 dispersion lengths of d...
We describe a simple, all-fiber, synchronous source of 110 GHz, 800fs bright solitons and 2.4ps dark...
We report for the first time the generation of 50 fs solitons from an all-fibre circuit comprising a...
We report the generation of 114 Gbit/s trains of 250 fs fundamental solitons. The pulses are generat...
We investigate femtosecond pulse propagation in photonic crystal fiber, reporting the generation of ...
femtosecond soliton pulse generation is demonstrated for the first time using fiber laser, periodica...
We report the generation of a 70 Gbit/s CW soliton train with a mark-space ratio of 1:11 from a fibr...
The development of erbium-doped optical fibre amplifiers with gain in excess of 40dB and a bandwidth...
We experimentally demonstrate a novel optical beat-signal to soliton train conversion technique base...
We demonstrate both experimentally and theoretically the generation of single and pairs of sub-100 f...
We report the generation of stable, CW soliton trains at 1.551µm using a technique based on the nonl...
We demonstrate 40GHz optical beat-signal to soliton train conversion employing a novel technique bas...
We demonstrate a 3 GHz repetition rate, femtosecond Raman soliton source with its wavelength tunable...
One of the most outstanding achievements of laser physics in recent years is, undoubtedly, the devel...
We demonstrate a novel technique based on soliton propagation through several different types of fib...
We have experimentally demonstrated transmission of 800 fs solitons over 150 dispersion lengths of d...
We describe a simple, all-fiber, synchronous source of 110 GHz, 800fs bright solitons and 2.4ps dark...
We report for the first time the generation of 50 fs solitons from an all-fibre circuit comprising a...