1. Commissioning results from the high-repetition rate nanosecond-kilojoule laser beamline at the extreme light infrastructure
- Author
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F P Condamine, N Jourdain, D Kramer, P Trojek, A Gintrand, G Fauvel, P Pandikian, J Bartoníček, G Friedman, M Havlík, J-C Hernandez, J Hubáček, T Laštovička, V Orna, O Renner, P Rubovič, B Rus, R L Singh, Š Vyhlídka, and S Weber
- Subjects
Nuclear Energy and Engineering ,Condensed Matter Physics - Abstract
High-power laser–matter interaction and the related high-energy density physics (HEDP) are two important topics in modern physics. However, for decades, a very restrictive limitation prevents researchers from studying these topics efficiently: nanosecond-kilojoule class lasers are typically characterized by a low repetition rate ( ≈ 1 shot h−1) that restricts the data acquisition and limits the available statistics for analysis. Here, we describe the first results obtained using the high-repetition rate nanosecond-kilojoule (L4n laser beamline) experimental platform commissioned at the Extreme Light Infrastructure—Beamlines. We proved the capability to deliver hundreds of joules shots every three min with a very good repeatability. Using high-resolution x-ray spectroscopy, we studied highly resolved spectra of H-like and He-like Cl lines emitted from polyvinyl chloride targets and demonstrated that the plasma parameters (electron temperature and density) derived from the measured spectra are consistent with hydro-simulations. These results demonstrate the fulfillment of the designed platform performance which should become one of the most important assets for the HEDP community in the following decades.
- Published
- 2022
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