Generation of short-pulse VUV and XUV radiation

Wellegehausen, B.; Welling, H.; Momma, Carsten; Feuerhake, M.; Mossavi, Kasem; Eichmann, H.

doi:10.1007/BF00385858

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Generation of short-pulse VUV and XUV radiation

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Mossavi, Kasem
Laser Interferometry & Gravitational Wave Astronomy, AEI-Hannover, MPI for Gravitational Physics, Max Planck Society;

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Citation

Wellegehausen, B., Welling, H., Momma, C., Feuerhake, M., Mossavi, K., & Eichmann, H. (1996). Generation of short-pulse VUV and XUV radiation. Optical and Quantum Electronics, 28(3), 267-281. doi:10.1007/BF00385858.

Cite as: https://hdl.handle.net/11858/00-001M-0000-0013-5B58-E

Abstract

Starting from intense short-pulse KrF (248 nm, 25 mJ, 400 fs), ArF (193 nm, 10 mJ, sim1 ps), and Ti:sapphire (810 nm, 100 mJ, 150 fs) laser systems, schemes for the generation of fixed-frequency and tunable VUV and XUV radiation by nonlinear optical techniques are investigated. With the KrF system, a four-wave mixing process in xenon yields tunable radiation in the range of 130–200 nm with output energies of, so far, 100 mgrJ in less than 1 ps. For the XUV spectral range below 100 nm, nonperturbative high-order harmonic generation and frequency mixing processes in noble gas jets are considered. To achieve tunability, the intense fixed-frequency pump laser radiation is mixed with less intense but broadly tunable radiation from short-pulse dye lasers or optical parametric generator-amplifier systems. In this way, tunability down to wavelengths of less than 40 nm has been demonstrated.