Add to ORKGPulse train multiplication based on the temporal Talbot effect in a linearly-chirped fiber grating is demonstrated. A 40GHz converted optical pulse train is obtained from a 2.5GHz FM mode-locked Er-Yb laser at 1.5 micron
We experimentally demonstrate 40 GHz soliton train generation using a novel optical beat-signal to s...
International audienceIn this work, we investigate the generation of stable 20- and 40-GHz pulse tra...
Recent advances in the fabrication of Fiber Bragg Gratings (FBGs) allow the production of complex FB...
Pulse train multiplication based on the temporal Talbot effect in a linearly-chirped fiber Bragg gra...
Pulse train multiplication based on the temporal Talbot effect in a linearly-chirped fibre grating i...
Pulse train multiplication based on the temporal Talbot effect in linearly-chirped fibre gratings is...
Abstract—The authors show a passive all-optical method for pulse-rate multiplication. It is based on...
An alternative to the sub-100MHz repetition rate laser source is explored. A low noise SCOWA-based h...
This paper presents recent results in the development of novel ultrafast technologies based on the g...
International audienceIn this work, we investigate the generation of 20 and 40 GHz pulse trains by n...
A sinc-sampled fiber Bragg grating is used to achieve multiplication of the repetition rate of a pul...
This paper presents recent results in the development of novel ultrafast technologies based on the g...
The authors describe the generation of short (< 4 ps) optical pulses at a repetition rate of 40 G...
We experimentally demonstrate an all-fiber method to generate a high-quality femtosecond pulse train...
We demonstrate 40GHz optical beat-signal to soliton train conversion employing a novel technique bas...
We experimentally demonstrate 40 GHz soliton train generation using a novel optical beat-signal to s...
International audienceIn this work, we investigate the generation of stable 20- and 40-GHz pulse tra...
Recent advances in the fabrication of Fiber Bragg Gratings (FBGs) allow the production of complex FB...
Pulse train multiplication based on the temporal Talbot effect in a linearly-chirped fiber Bragg gra...
Pulse train multiplication based on the temporal Talbot effect in a linearly-chirped fibre grating i...
Pulse train multiplication based on the temporal Talbot effect in linearly-chirped fibre gratings is...
Abstract—The authors show a passive all-optical method for pulse-rate multiplication. It is based on...
An alternative to the sub-100MHz repetition rate laser source is explored. A low noise SCOWA-based h...
This paper presents recent results in the development of novel ultrafast technologies based on the g...
International audienceIn this work, we investigate the generation of 20 and 40 GHz pulse trains by n...
A sinc-sampled fiber Bragg grating is used to achieve multiplication of the repetition rate of a pul...
This paper presents recent results in the development of novel ultrafast technologies based on the g...
The authors describe the generation of short (< 4 ps) optical pulses at a repetition rate of 40 G...
We experimentally demonstrate an all-fiber method to generate a high-quality femtosecond pulse train...
We demonstrate 40GHz optical beat-signal to soliton train conversion employing a novel technique bas...
We experimentally demonstrate 40 GHz soliton train generation using a novel optical beat-signal to s...
International audienceIn this work, we investigate the generation of stable 20- and 40-GHz pulse tra...
Recent advances in the fabrication of Fiber Bragg Gratings (FBGs) allow the production of complex FB...