Communications Physics (Jun 2024)

Ultrafast opto-magnetic effects in the extreme ultraviolet spectral range

  • Martin Hennecke,
  • Clemens von Korff Schmising,
  • Kelvin Yao,
  • Emmanuelle Jal,
  • Boris Vodungbo,
  • Valentin Chardonnet,
  • Katherine Légaré,
  • Flavio Capotondi,
  • Denys Naumenko,
  • Emanuele Pedersoli,
  • Ignacio Lopez-Quintas,
  • Ivaylo P. Nikolov,
  • Lorenzo Raimondi,
  • Giovanni De Ninno,
  • Leandro Salemi,
  • Sergiu Ruta,
  • Roy Chantrell,
  • Thomas Ostler,
  • Bastian Pfau,
  • Dieter Engel,
  • Peter M. Oppeneer,
  • Stefan Eisebitt,
  • Ilie Radu

DOI
https://doi.org/10.1038/s42005-024-01686-7
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 8

Abstract

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Abstract Coherent light-matter interactions mediated by opto-magnetic phenomena like the inverse Faraday effect (IFE) are expected to provide a non-thermal pathway for ultrafast manipulation of magnetism on timescales as short as the excitation pulse itself. As the IFE scales with the spin-orbit coupling strength of the involved electronic states, photo-exciting the strongly spin-orbit coupled core-level electrons in magnetic materials appears as an appealing method to transiently generate large opto-magnetic moments. Here, we investigate this scenario in a ferrimagnetic GdFeCo alloy by using intense and circularly polarized pulses of extreme ultraviolet radiation. Our results reveal ultrafast and strong helicity-dependent magnetic effects which are in line with the characteristic fingerprints of an IFE, corroborated by ab initio opto-magnetic IFE theory and atomistic spin dynamics simulations.