Structural Dynamics (Mar 2021)

Analysis of the temperature- and fluence-dependent magnetic stress in laser-excited SrRuO3

  • M. Mattern,
  • J.-E. Pudell,
  • G. Laskin,
  • A. von Reppert,
  • M. Bargheer

DOI
https://doi.org/10.1063/4.0000072
Journal volume & issue
Vol. 8, no. 2
pp. 024302 – 024302-9

Abstract

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We use ultrafast x-ray diffraction to investigate the effect of expansive phononic and contractive magnetic stress driving the picosecond strain response of a metallic perovskite SrRuO3 thin film upon femtosecond laser excitation. We exemplify how the anisotropic bulk equilibrium thermal expansion can be used to predict the response of the thin film to ultrafast deposition of energy. It is key to consider that the laterally homogeneous laser excitation changes the strain response compared to the near-equilibrium thermal expansion because the balanced in-plane stresses suppress the Poisson stress on the picosecond timescale. We find a very large negative Grüneisen constant describing the large contractive stress imposed by a small amount of energy in the spin system. The temperature and fluence dependence of the strain response for a double-pulse excitation scheme demonstrates the saturation of the magnetic stress in the high-fluence regime.