Add to ORKGThe authors present numerical simulations of ultrashort pulse generation by a technique of linear spectral broadening in phase modulators and compression in dispersion compensating fibre, followed by a further stage of soliton compression in dispersion shifted fibre. This laser system is predicted to generate pulses of 140 fs duration with a peak power of 1.5 kW over a wide, user selectable repetition rate range while maintaining consistent characteristics of stability and pulse quality. The use of fibre compressors and commercially available modulators is expected to make the system setup compact and cost-effective. © The Institution of Engineering and Technology 2014
We report on the generation of 27 fs pulses with an average output power of 57 W and a repetition ra...
International audienceOptimised compression of femtosecond fibre laser pulses in highly nonlinear fi...
To study techniques for controlling the duration of ultrashort (femtosecond) optical pulses by using...
The development of erbium-doped optical fibre amplifiers with gain in excess of 40dB and a bandwidth...
This thesis presents experimental and computational work on a variety of fibre based systems coverin...
In this thesis, I describe the development of a high repetition rate femtosecond fibre based chirped...
A stable beat-signal produced by two comb-phase-locked CW lasers separated by >100 GHz is nonline...
Over the past years, ultrafast lasers with average powers in the 100 W range have become a mature te...
We present a high peak and average power laser system with ultrashort pulses at high repetition rate...
Fiber laser systems offer unique properties for the amplification of ultrashort pulses to high power...
International audienceOptimised compression of femtosecond fibre laser pulses in highly nonlinear fi...
The need for improved precision in a wide variety of micromachining applications has driven scientif...
The need for improved precision in a wide variety of micromachining applications has driven scientif...
ACKNOWLEDGMENT This work was supported by the National Natural Science Foundation of China (No. Proj...
We report on the generation of 50 fs pulses with an average output power of more than 50W. This is d...
We report on the generation of 27 fs pulses with an average output power of 57 W and a repetition ra...
International audienceOptimised compression of femtosecond fibre laser pulses in highly nonlinear fi...
To study techniques for controlling the duration of ultrashort (femtosecond) optical pulses by using...
The development of erbium-doped optical fibre amplifiers with gain in excess of 40dB and a bandwidth...
This thesis presents experimental and computational work on a variety of fibre based systems coverin...
In this thesis, I describe the development of a high repetition rate femtosecond fibre based chirped...
A stable beat-signal produced by two comb-phase-locked CW lasers separated by >100 GHz is nonline...
Over the past years, ultrafast lasers with average powers in the 100 W range have become a mature te...
We present a high peak and average power laser system with ultrashort pulses at high repetition rate...
Fiber laser systems offer unique properties for the amplification of ultrashort pulses to high power...
International audienceOptimised compression of femtosecond fibre laser pulses in highly nonlinear fi...
The need for improved precision in a wide variety of micromachining applications has driven scientif...
The need for improved precision in a wide variety of micromachining applications has driven scientif...
ACKNOWLEDGMENT This work was supported by the National Natural Science Foundation of China (No. Proj...
We report on the generation of 50 fs pulses with an average output power of more than 50W. This is d...
We report on the generation of 27 fs pulses with an average output power of 57 W and a repetition ra...
International audienceOptimised compression of femtosecond fibre laser pulses in highly nonlinear fi...
To study techniques for controlling the duration of ultrashort (femtosecond) optical pulses by using...