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

David GauthierEnrico AllariaMarcello CorenoIvan CudinHugo DacasaMiltcho Boyanov DanailovAlexander DemidovichSimone Di MitriBruno DiviaccoEugenio FerrariPaola FinettiFabio FrassettoDavid GarzellaSwen KünzelVincent LerouxBenoît MahieuNicola MahneMichael MeyerTommaso MazzaPaolo MiottiGiuseppe PencoLorenzo RaimondiPrimož Rebernik RibičRobert RichterEléonore RousselSebastian SchulzLuca SturariCristian SvetinaMauro TrovòPaul Andreas WalkerMarco ZangrandoCarlo CallegariMarta FajardoLuca PolettoPhilippe ZeitounLuca GiannessiGiovanni De Ninno
Published in: Nature communications (2016)
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).
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