• High Power Laser Science and Engineering
  • Vol. 9, Issue 3, 03000e47 (2021)
K. Batani1、*, A. Aliverdiev2、3, R. Benocci4, R. Dezulian5, A. Amirova6, E. Krousky7、8, M. Pfeifer7、8, J. Skala7, R. Dudzak7、8, W. Nazarov9, and D. Batani10、11
Author Affiliations
  • 1IPPLM, Warsaw, Poland
  • 2IGRRE JIHT RAS, Makhachkala, Russia
  • 3Dagestan State University, Makhachkala, Russia
  • 4Università di Milano Bicocca, Milan, Italy
  • 5Liceo Scientifico ‘Galileo Galilei’, Trento, Italy
  • 6IP DFRC RAS, Makhachkala, Russia
  • 7Institute of Physics, Czech Academy of Sciences, Prague, Czech Republic
  • 8Institute of Plasma Physics, Czech Academy of Sciences, Prague, Czech Republic
  • 9Independent Foam Target Supplier, St Andrews, UK
  • 10University Bordeaux, CEA, CNRS, Talence, France
  • 11Plasma Physics Department, National Research Nuclear University MEPhI, Moscow, Russia
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    Abstract

    We present an experimental study of the dynamics of shocks generated by the interaction of a double-spot laser in different kinds of targets: simple aluminum foils and foam–aluminum layered targets. The experiment was performed using the Prague PALS iodine laser working at 0.44 μm wavelength and irradiance of a few 1015 W/cm2. Shock breakouts for pure Al and for foam-Al targets have been recorded using time-resolved self-emission diagnostics. Experimental results have been compared with numerical simulations. The shocks originating from two spots move forward and expand radially in the targets, finally colliding in the intermediate region and producing a very strong increase in pressure. This is particularly clear for the case of foam layered targets, where we also observed a delay of shock breakout and a spatial redistribution of the pressure. The influence of the foam layer doped with high-Z (Au) nanoparticles on the shock dynamics was also studied.
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    K. Batani, A. Aliverdiev, R. Benocci, R. Dezulian, A. Amirova, E. Krousky, M. Pfeifer, J. Skala, R. Dudzak, W. Nazarov, D. Batani. Shock dynamics and shock collision in foam layered targets[J]. High Power Laser Science and Engineering, 2021, 9(3): 03000e47
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    Category: Research Articles
    Received: Apr. 20, 2021
    Accepted: Jun. 30, 2021
    Published Online: Sep. 14, 2021
    The Author Email: K. Batani (katarzyna.batani@ifpilm.pl)