Scientific Reports (Jan 2024)

Ultrafast demagnetization in bulk nickel induced by X-ray photons tuned to Ni M 3 and L 3 absorption edges

  • Konrad J. Kapcia,
  • Victor Tkachenko,
  • Flavio Capotondi,
  • Alexander Lichtenstein,
  • Serguei Molodtsov,
  • Przemysław Piekarz,
  • Beata Ziaja

DOI
https://doi.org/10.1038/s41598-023-50467-9
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 8

Abstract

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Abstract Studies of light-induced demagnetization started with the experiment performed by Beaupaire et al. on Ni. Here, we present theoretical predictions for X-ray induced demagnetization of nickel, with X-ray photon energies tuned to its $$M_3$$ M 3 and $$L_3$$ L 3 absorption edges. We show that the specific feature in the density of states in the d-band of Ni, i.e., a sharp peak located just above the Fermi level, strongly influences the change of the predicted magnetic signal, making it stronger than in the previously studied case of X-ray demagnetized cobalt. It impacts also the value of Curie temperature for Ni. We believe that this finding will inspire dedicated experiments investigating magnetic processes in X-ray irradiated nickel and cobalt.