We demonstrate single-stage post-compression of an Ytterbium fiber laser to about 20 fs based on spectral broadening in a gas-filled multipass cell. A compression factor of seven has been achieved with a throughput of 86%
The output of a 200 kHz, 34 W, 300 fs ytterbium amplifier is compressed to 31 fs with >88% efficienc...
For many years, light-matter interaction in the strong-field regime has benefited from continuous im...
Ultrafast lasers reaching extremely high powers within short fractions of time enable a plethora of ...
Post-compression methods for ultrafast laser pulses typically face challenging limitations, includin...
In this work,we demonstrate postcompression of 1.2 ps laser pulses to 13 fs via gas-based multipass ...
We demonstrate nonlinear compression of pulses at 1.03 µm and repetition rate of 200 kHz generated b...
International audienceWe demonstrate nonlinear temporal compression of a high-energy Yb-doped fiber ...
We demonstrate efficient post-compression of a 30 W, 0.46 GW peak power Yb source with 250 fs initia...
Nonlinear pulse post-compression represents an efficient method for ultrashort, high-quality laser p...
Over the past years, ultrafast lasers with average powers in the 100 W range have become a mature te...
We demonstrate post-compression of a high energy Yb:YAG laser in a 2m long Argon-filled multi-pass c...
Ultrafast laser technology advances towards ever higher peak and average powers but it remains a maj...
Advancing ultrafast high-repetition-rate lasers to shortest pulse durations comprising only a few op...
We report nonlinear pulse compression of 1.2-ps, 2-mJ pulses. For spectral broadening, we use a Kr-f...
Spectral broadening via the multi-pass cell technique provides a power-efficient route to direct pos...
The output of a 200 kHz, 34 W, 300 fs ytterbium amplifier is compressed to 31 fs with >88% efficienc...
For many years, light-matter interaction in the strong-field regime has benefited from continuous im...
Ultrafast lasers reaching extremely high powers within short fractions of time enable a plethora of ...
Post-compression methods for ultrafast laser pulses typically face challenging limitations, includin...
In this work,we demonstrate postcompression of 1.2 ps laser pulses to 13 fs via gas-based multipass ...
We demonstrate nonlinear compression of pulses at 1.03 µm and repetition rate of 200 kHz generated b...
International audienceWe demonstrate nonlinear temporal compression of a high-energy Yb-doped fiber ...
We demonstrate efficient post-compression of a 30 W, 0.46 GW peak power Yb source with 250 fs initia...
Nonlinear pulse post-compression represents an efficient method for ultrashort, high-quality laser p...
Over the past years, ultrafast lasers with average powers in the 100 W range have become a mature te...
We demonstrate post-compression of a high energy Yb:YAG laser in a 2m long Argon-filled multi-pass c...
Ultrafast laser technology advances towards ever higher peak and average powers but it remains a maj...
Advancing ultrafast high-repetition-rate lasers to shortest pulse durations comprising only a few op...
We report nonlinear pulse compression of 1.2-ps, 2-mJ pulses. For spectral broadening, we use a Kr-f...
Spectral broadening via the multi-pass cell technique provides a power-efficient route to direct pos...
The output of a 200 kHz, 34 W, 300 fs ytterbium amplifier is compressed to 31 fs with >88% efficienc...
For many years, light-matter interaction in the strong-field regime has benefited from continuous im...
Ultrafast lasers reaching extremely high powers within short fractions of time enable a plethora of ...
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