We report on the nonlinear pulse compression of temporally divided pulses, which is presented in a proof-of-principle experiment. A single 320 fs pulse is divided into four replicas, spectrally broadened in a solid-core fiber, and subsequently recombined. This approach makes it possible to reduce the nonlinearities in the fiber and therefore to use total input peak power of about 13.3 MW, which is more than three times higher than the self-focusing threshold. Finally, the combined output pulse could be compressed to sub-100 fs pulse duration. This general and universal approach holds promise for overcoming fundamental limitations of the pulse peak power that lead to destruction of the fiber or ionization limitations in high-energy hollow-co...
We demonstrate 33-fold pulse compression employing a 6-m-long hollow-core fiber and chirped mirrors....
National Natural Science Foundation of China [61521093]; Strategic Priority Research Program of the ...
We demonstrate multi-pulse compression in nonlinear optical fibers with exponentially decreasing dis...
The coherent combination of ultrashort pulses has recently been established as a technique to overco...
We demonstrate the coherent combination of pulses that are spectrally broadened in two spatially sep...
Nonlinear pulse compression of ultrashort pulses is an established method for reducing the pulse dur...
Ultrashort pulses are very important in the research of high field physics. The scheme of extracavit...
We demonstrate 33-fold pulse compression employing a 6-m-long hollow-core fiber and chirped mirrors....
We demonstrate nonlinear compression of pulses at 1.03 µm and repetition rate of 200 kHz generated b...
We demonstrate 33-fold pulse compression employing a 6-m-long hollow-core fiber and chirped mirrors....
Abstract: We review pulse compression technique based on “comb-like profiled fiber (CPF)”, com-prise...
ACKNOWLEDGMENT This work was supported by the National Natural Science Foundation of China (No. Proj...
<p>The setup of nonlinear pulse compression with hollow-core photonic crystal fiber (HC-PCF) is demo...
We demonstrate 20-fold pulse compression by employing a 3-m-long argon-filled hollow-core fiber and ...
We demonstrate a scheme for nonlinear pulse compression at high average powers based on self-phase m...
We demonstrate 33-fold pulse compression employing a 6-m-long hollow-core fiber and chirped mirrors....
National Natural Science Foundation of China [61521093]; Strategic Priority Research Program of the ...
We demonstrate multi-pulse compression in nonlinear optical fibers with exponentially decreasing dis...
The coherent combination of ultrashort pulses has recently been established as a technique to overco...
We demonstrate the coherent combination of pulses that are spectrally broadened in two spatially sep...
Nonlinear pulse compression of ultrashort pulses is an established method for reducing the pulse dur...
Ultrashort pulses are very important in the research of high field physics. The scheme of extracavit...
We demonstrate 33-fold pulse compression employing a 6-m-long hollow-core fiber and chirped mirrors....
We demonstrate nonlinear compression of pulses at 1.03 µm and repetition rate of 200 kHz generated b...
We demonstrate 33-fold pulse compression employing a 6-m-long hollow-core fiber and chirped mirrors....
Abstract: We review pulse compression technique based on “comb-like profiled fiber (CPF)”, com-prise...
ACKNOWLEDGMENT This work was supported by the National Natural Science Foundation of China (No. Proj...
<p>The setup of nonlinear pulse compression with hollow-core photonic crystal fiber (HC-PCF) is demo...
We demonstrate 20-fold pulse compression by employing a 3-m-long argon-filled hollow-core fiber and ...
We demonstrate a scheme for nonlinear pulse compression at high average powers based on self-phase m...
We demonstrate 33-fold pulse compression employing a 6-m-long hollow-core fiber and chirped mirrors....
National Natural Science Foundation of China [61521093]; Strategic Priority Research Program of the ...
We demonstrate multi-pulse compression in nonlinear optical fibers with exponentially decreasing dis...