Reflecting laser-driven shocks in diamond in the megabar pressure range

Jakubowska, K.; Martynenko, A. S.; Verona, C.; Trela, J.; Cannatà, D.; Molineri, A.; Borm, B.; Errea, I.; Neumayer, P.; Rosmej, O.; Roman, H. E.; Mancelli, D.; Aliverdiev, A.; Batani, D.; Benocci, R.

doi:10.1017/hpl.2020.38

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@ARTICLE{Jakubowska:237186,
      author       = {Jakubowska, K. and Mancelli, D. and Benocci, R. and Trela,
                      J. and Errea, I. and Martynenko, A. S. and Neumayer, P. and
                      Rosmej, O. and Borm, B. and Molineri, A. and Verona, C. and
                      Cannatà, D. and Aliverdiev, A. and Roman, H. E. and Batani,
                      D.},
      title        = {{R}eflecting laser-driven shocks in diamond in the megabar
                      pressure range},
      journal      = {High power laser science and engineering},
      volume       = {9},
      issn         = {2052-3289},
      address      = {Cambridge},
      publisher    = {Cambridge Univ. Press},
      reportid     = {GSI-2021-00228},
      pages        = {e3},
      year         = {2021},
      note         = {"This is an Open Access article, distributed under the
                      terms of the Creative Commons Attribution licence
                      (http://creativecommons.org/licenses/by/4.0/), which permits
                      unrestricted re-use, distribution, and reproduction in any
                      medium, provided the original work is properly cited."},
      abstract     = {In this work we present experimental results on the
                      behavior of diamond at megabar pressure. The experiment was
                      performed using the PHELIX facility at GSI in Germany to
                      launch a planar shock into solid multi-layered diamond
                      samples. The target design allows shock velocity in diamond
                      and in two metal layers to be measured as well as the free
                      surface velocity after shock breakout. As diagnostics, we
                      used two velocity interferometry systems for any reflector
                      (VISARs). Our measurements show that for the pressures
                      obtained in diamond (between 3 and 9 Mbar), the propagation
                      of the shock induces a reflecting state of the material.
                      Finally, the experimental results are compared with
                      hydrodynamical simulations in which we used different
                      equations of state, showing compatibility with dedicated
                      SESAME tables for diamond.},
      cin          = {PPH},
      ddc          = {620},
      cid          = {I:(DE-Ds200)PPH-20051214OR027},
      pnm          = {631 - Matter – Dynamics, Mechanisms and Control
                      (POF4-631)},
      pid          = {G:(DE-HGF)POF4-631},
      experiment   = {EXP:(DE-Ds200)P104-20200803},
      typ          = {PUB:(DE-HGF)16},
      UT           = {WOS:000610187100001},
      doi          = {10.1017/hpl.2020.38},
      url          = {https://repository.gsi.de/record/237186},
}

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