Femtosecond thin disk lasers exceed pulse energies of 10 microjoules and enable high field physics experiments

C. R. E. Baer; S. V. Marchese; S. Hashimoto; M. S. Ruosch; R. Grange; M. Golling; T. Südmeyer; U. Keller; G. Lépine; G. Gingras; B. Witzel

doi:10.1364/ASSP.2008.ME4

Advanced Solid-State Photonics
OSA Technical Digest Series (CD) (Optica Publishing Group, 2008),
paper ME4
•https://doi.org/10.1364/ASSP.2008.ME4

Femtosecond thin disk lasers exceed pulse energies of 10 microjoules and enable high field physics experiments

C. R. E. Baer, S. V. Marchese, S. Hashimoto, M. S. Ruosch, R. Grange, M. Golling, T. Südmeyer, U. Keller, G. Lépine, G. Gingras, and B. Witzel

Advanced Solid-State Photonics 2008

Nara Japan
27–30 January 2008
ISBN: 1-55752-850-0

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Ultrafast Oscillators (ME)

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C. R. E. Baer, S. V. Marchese, S. Hashimoto, M. S. Ruosch, R. Grange, M. Golling, T. Südmeyer, U. Keller, G. Lépine, G. Gingras, and B. Witzel, "Femtosecond thin disk lasers exceed pulse energies of 10 microjoules and enable high field physics experiments," in Advanced Solid-State Photonics, OSA Technical Digest Series (CD) (Optica Publishing Group, 2008), paper ME4.

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Abstract

We achieve 10-microjoule pulse energies directly from a femtosecond laser oscillator. We underline its suitability for high field experiments at multi-megahertz repetition rate by demonstrating the first electron spectroscopy measurements driven by an oscillator.

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