Physical Review Research (Sep 2021)

Ultrafast optical stress on BaFe_{2}As_{2}

  • Takeshi Suzuki,
  • Yuya Kubota,
  • Asuka Nakamura,
  • Takahiro Shimojima,
  • Kou Takubo,
  • Suguru Ito,
  • Kohei Yamamoto,
  • Shoya Michimae,
  • Hikaru Sato,
  • Hidenori Hiramatsu,
  • Hideo Hosono,
  • Tadashi Togashi,
  • Makina Yabashi,
  • Hiroki Wadati,
  • Iwao Matsuda,
  • Shik Shin,
  • Kozo Okazaki

DOI
https://doi.org/10.1103/PhysRevResearch.3.033222
Journal volume & issue
Vol. 3, no. 3
p. 033222

Abstract

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We investigate the ultrafast lattice dynamics in BaFe_{2}As_{2} via time-resolved x-ray diffraction measurements using an x-ray free-electron laser at SPring-8 Angstrom Compact free-electron LAser (SACLA). The profile of the Bragg peaks substantially changes after strong photoexcitation, where the c axis length of the lattice initially contracts, followed by expansion. These ultrafast lattice contractions and expansions significantly depend on the pump fluence, and it is suggested that a strong normal stress is applied along the c axis. To obtain a phenomenological understanding of the observed lattice dynamics, we performed calculations based on a two-temperature model and an ultrafast thermoelasticity model. Our results showed that a steep gradient of the electron temperature induced by photoexcitation generates a blast force, which acts as a strong normal stress. We propose that a temporal stress can be applied by a strong optical pump, and this scheme can be another route for the application of uniaxial stress to superconductors.