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Chirped pulse amplification in an extreme-ultraviolet free-electron laser

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Schulz,  S.
Extreme Timescales, Condensed Matter Dynamics Department, Max Planck Institute for the Structure and Dynamics of Matter, Max Planck Society;

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Citation

Gauthier, D., Allaria, E., Coreno, M., Cudin, I., Dacasa, H., Danailov, M. B., et al. (2016). Chirped pulse amplification in an extreme-ultraviolet free-electron laser. Nature Communications, 7: 13688. doi:10.1038/ncomms13688.


Cite as: http://hdl.handle.net/21.11116/0000-0001-8CA8-4
Abstract
Chirped pulse amplification in optical lasers is a revolutionary technique, which allows the generation of extremely powerful femtosecond pulses in the infrared and visible spectral ranges. Such pulses are nowadays an indispensable tool for a myriad of applications, both in fundamental and applied research. In recent years, a strong need emerged for light sources producing ultra-short and intense laser-like X-ray pulses, to be used for experiments in a variety of disciplines, ranging from physics and chemistry to biology and material sciences. This demand was satisfied by the advent of short-wavelength free-electron lasers. However, for any given free-electron laser setup, a limit presently exists in the generation of ultra-short pulses carrying substantial energy. Here we present the experimental implementation of chirped pulse amplification on a seeded free-electron laser in the extreme-ultraviolet, paving the way to the generation of fully coherent sub-femtosecond gigawatt pulses in the water window (2.3–4.4 nm).