Add to ORKGWe present a straightforward route for extreme pulse compression, which relies on moderately driving self-phase modulation (SPM) over an extended propagation distance. This avoids that other detrimental nonlinear mechanisms take over and deteriorate the SPM process. The long propagation is obtained by means of a hollow-core fiber (HCF), up to 6 m in length. This concept is potentially scalable to TW pulse peak powers at kW average power level. As a proof of concept, we demonstrate 33-fold pulse compression of a 1 mJ, 6 kHz, 170 fs Yb laser down to 5.1 fs (1.5 cycles at 1030 nm), by employing a single HCF and subsequent chirped mirrors with an overall transmission of 70%
We demonstrate a scheme for nonlinear pulse compression at high average powers based on self-phase m...
We present the nonlinear self-compression of pulses from a high repetition rate thuliumdoped fiber l...
International audienceBy employing pulse compression with a stretched hollow-core fiber, we generate...
We present a straightforward route for extreme pulse compression, which relies on moderately driving...
We demonstrate 33-fold pulse compression employing a 6-m-long hollow-core fiber and chirped mirrors....
We demonstrate 33-fold pulse compression employing a 6-m-long hollow-core fiber and chirped mirrors....
We demonstrate 33-fold pulse compression employing a 6-m-long hollow-core fiber and chirped mirrors....
International audienceWe present two experiments confirming that hypocycloid Kagome-type hollow-core...
Over the past years, ultrafast lasers with average powers in the 100 W range have become a mature te...
We demonstrate 20-fold pulse compression by employing a 3-m-long argon-filled hollow-core fiber and ...
We present a high peak and average power laser system with ultrashort pulses at high repetition rate...
International audienceWe report on several ultra-short pulse compression schemes based on hollow-cor...
<p>The setup of nonlinear pulse compression with hollow-core photonic crystal fiber (HC-PCF) is demo...
We report on nonlinear pulse compression at very high average power. A high-power fiber chirped puls...
We demonstrate temporal pulse compression in gas-filled kagome hollow-core photonic crystal fiber (P...
We demonstrate a scheme for nonlinear pulse compression at high average powers based on self-phase m...
We present the nonlinear self-compression of pulses from a high repetition rate thuliumdoped fiber l...
International audienceBy employing pulse compression with a stretched hollow-core fiber, we generate...
We present a straightforward route for extreme pulse compression, which relies on moderately driving...
We demonstrate 33-fold pulse compression employing a 6-m-long hollow-core fiber and chirped mirrors....
We demonstrate 33-fold pulse compression employing a 6-m-long hollow-core fiber and chirped mirrors....
We demonstrate 33-fold pulse compression employing a 6-m-long hollow-core fiber and chirped mirrors....
International audienceWe present two experiments confirming that hypocycloid Kagome-type hollow-core...
Over the past years, ultrafast lasers with average powers in the 100 W range have become a mature te...
We demonstrate 20-fold pulse compression by employing a 3-m-long argon-filled hollow-core fiber and ...
We present a high peak and average power laser system with ultrashort pulses at high repetition rate...
International audienceWe report on several ultra-short pulse compression schemes based on hollow-cor...
<p>The setup of nonlinear pulse compression with hollow-core photonic crystal fiber (HC-PCF) is demo...
We report on nonlinear pulse compression at very high average power. A high-power fiber chirped puls...
We demonstrate temporal pulse compression in gas-filled kagome hollow-core photonic crystal fiber (P...
We demonstrate a scheme for nonlinear pulse compression at high average powers based on self-phase m...
We present the nonlinear self-compression of pulses from a high repetition rate thuliumdoped fiber l...
International audienceBy employing pulse compression with a stretched hollow-core fiber, we generate...