Structural Dynamics (Sep 2023)

Non-thermal structural transformation of diamond driven by x-rays

  • Philip Heimann,
  • Nicholas J. Hartley,
  • Ichiro Inoue,
  • Victor Tkachenko,
  • Andre Antoine,
  • Fabien Dorchies,
  • Roger Falcone,
  • Jérôme Gaudin,
  • Hauke Höppner,
  • Yuichi Inubushi,
  • Konrad J. Kapcia,
  • Hae Ja Lee,
  • Vladimir Lipp,
  • Paloma Martinez,
  • Nikita Medvedev,
  • Franz Tavella,
  • Sven Toleikis,
  • Makina Yabashi,
  • Toshinori Yabuuchi,
  • Jumpei Yamada,
  • Beata Ziaja

DOI
https://doi.org/10.1063/4.0000193
Journal volume & issue
Vol. 10, no. 5
pp. 054502 – 054502-7

Abstract

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Intense x-ray pulses can cause the non-thermal structural transformation of diamond. At the SACLA XFEL facility, pump x-ray pulses triggered this phase transition, and probe x-ray pulses produced diffraction patterns. Time delays were observed from 0 to 250 fs, and the x-ray dose varied from 0.9 to 8.0 eV/atom. The intensity of the (111), (220), and (311) diffraction peaks decreased with time, indicating a disordering of the crystal lattice. From a Debye–Waller analysis, the rms atomic displacements perpendicular to the (111) planes were observed to be significantly larger than those perpendicular to the (220) or (311) planes. At a long time delay of 33 ms, graphite (002) diffraction indicates that graphitization did occur above a threshold dose of 1.2 eV/atom. These experimental results are in qualitative agreement with XTANT+ simulations using a hybrid model based on density-functional tight-binding molecular dynamics.