Characterization of blast waves induced by femtosecond laser irradiation in solid targets

Katarzyna Liliana Batani; Sophia Malko; Michael Touati; Jean-Luc Feugeas; Amit D. Lad; Kamalesh Jana; G. Ravindra Kumar; Didier Raffestin; Olena Turianska; Dimitri Khaghani; Alessandro Tentori; Donaldi Mancelli; Artem S. Martynenko; Sergey Pikuz; Roberto Benocci; Luca Volpe; Ghassan Zeraouli; Jose Antonio Perez Hernandez; Enrique Garcia; Venkatakrishnan Narayanan; Joao Santos; Dimitri Batani

doi:10.1017/hpl.2024.36

Journals >High Power Laser Science and Engineering >Volume 12 >Issue 5 >Page 05000e59 > Article

High Power Laser Science and Engineering
Vol. 12, Issue 5, 05000e59 (2024)

Characterization of blast waves induced by femtosecond laser irradiation in solid targets | On the Cover

Katarzyna Liliana Batani^1,*, Sophia Malko^2,8, Michael Touati², Jean-Luc Feugeas³..., Amit D. Lad⁴, Kamalesh Jana⁴, G. Ravindra Kumar⁴, Didier Raffestin³, Olena Turianska³, Dimitri Khaghani^3,9, Alessandro Tentori³, Donaldi Mancelli^3,10,11, Artem S. Martynenko^5,12, Sergey Pikuz^5,13, Roberto Benocci⁶, Luca Volpe^2,14,15, Ghassan Zeraouli², Jose Antonio Perez Hernandez², Enrique Garcia², Venkatakrishnan Narayanan⁷, Joao Santos³ and Dimitri Batani³|Show fewer author(s)

Author Affiliations

¹Institute of Plasma Physics and Laser Microfusion (IPPLM), Warsaw, Poland

²Centro de Láseres Pulsados (CLPU), Salamanca, Spain

³Centre Lasers Intenses et Applications (CELIA), Université Bordeaux, Talence, France

⁴Department of Nuclear and Atomic Physics, Tata Institute of Fundamental Research (TIFR), Mumbai, India

⁵Joint Institute for High Temperatures of Russian Academy of Sciences, Moscow, Russia

⁶Department of Earth and Environmental Sciences, University of Milano-Bicocca, Milano, Italy

⁷Department of Physics, Indian Institute of Technology Jodhpur, Jodhpur, India

⁸Currently at Princeton Plasma Physics Laboratory, Princeton, USA

⁹Currently at SLAC National Accelerator Laboratory, Menlo Park, USA

¹⁰Currently at Institute of Plasma Physics and Lasers, University Research and Innovation Centre, Hellenic Mediterranean University, Crete, Greece

¹¹Currently at Department of Electronic Engineering, School of Engineering, Hellenic Mediterranean University, Crete, Greece

¹²Currently at GSI Helmholtzzentrum, Darmstadt, Germany

¹³Currently at HB11 Energy Holdings Pty, Manly, Australia

¹⁴Currently at ETSI Aeronáutica y del Espacio, Universidad Politécnica de Madrid, Madrid, Spain

¹⁵Currently at Centro de Laseres Pulsados, Salamanca, Spain

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DOI: 10.1017/hpl.2024.36 Cite this Article Set citation alerts

Katarzyna Liliana Batani, Sophia Malko, Michael Touati, Jean-Luc Feugeas, Amit D. Lad, Kamalesh Jana, G. Ravindra Kumar, Didier Raffestin, Olena Turianska, Dimitri Khaghani, Alessandro Tentori, Donaldi Mancelli, Artem S. Martynenko, Sergey Pikuz, Roberto Benocci, Luca Volpe, Ghassan Zeraouli, Jose Antonio Perez Hernandez, Enrique Garcia, Venkatakrishnan Narayanan, Joao Santos, Dimitri Batani, "Characterization of blast waves induced by femtosecond laser irradiation in solid targets," High Power Laser Sci. Eng. 12, 05000e59 (2024) Copy Citation Text

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Abstract

Blast waves have been produced in solid target by irradiation with short-pulse high-intensity lasers. The mechanism of production relies on energy deposition from the hot electrons produced by laser–matter interaction, producing a steep temperature gradient inside the target. Hot electrons also produce preheating of the material ahead of the blast wave and expansion of the target rear side, which results in a complex blast wave propagation dynamic. Several diagnostics have been used to characterize the hot electron source, the induced preheating and the velocity of the blast wave. Results are compared to numerical simulations. These show how blast wave pressure is initially very large (more than 100 Mbar), but it decreases very rapidly during propagation.

Keywords

blast waves bremsstrahlung cannon Doppler velocimetry electron spectrometer hot electrons preheating shock chronometry short-pulse high-intensity lasers

\begin{array}{r} T_{hot} = 511 keV [{(1 + 0.073 I_{17} λ_{μ m}^{2})}^{1 / 2} - 1] \approx 1470 keV, \end{array}

((1))

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