Research

The MagneDyn beamline: Investigating Ultrafast Magnetic Phenomena

The manipulation of magnetic order using light is a critical area of research in contemporary magnetism. In particular, the non-equilibrium conditions that arise in magnetic materials following excitation by intense femtosecond laser pulses have garnered significant attention over the past two decades. These highly non-equilibrium states evolve rapidly, within the ultrafast temporal regime (<1 ps), rendering the traditional framework of classical thermodynamics inadequate for describing the magnetic phenomena. Consequently, the ultrafast mechanisms responsible for transferring energy and angular momentum between photons, electrons, spins, and phonons remain elusive and a subject of ongoing debate. The MagneDyn beamline serves as an innovative research tool in the realm of ultrafast magneto-dynamical studies, offering a combination of pump-probe optical and X-ray spectroscopie Researchers can perform time-resolved extreme ultraviolet (EUV) magneto-optical Kerr/Faraday effect studies (tr-EUV MOKE) and resonant x-ray emission scattering (tr-RXES), while varying sample temperature (from 300K down to 10K) and applying high magnetic fields (1.6 Tesla). This unique combination of capabilities enables a more comprehensive understanding of ultrafast magnetic phenomena and their underlying mechanisms.

  • Ultrafast magnetodynamics with free-electron lasers Marco Malvestuto, Roberta Ciprian, Antonio Caretta, Barbara Casarin, Fulvio Parmigiani . Journal of Physics: Condensed Matter 2018 https://dx.doi.org/10.1088/1361-648x/aaa211
  • Science Frontiers with X-Ray Free Electron Laser Sources. Synchrotron Radiation. Springer Berlin Heidelberg, 2015 pp. 761-785.
  • Time resolved X-ray absorption spectroscopy in condensed matter: A road map to the future. Martina Dell'Angela et al. Journal of Electron Spectroscopy and Related, 2015 vol. 200 pp. 22-30
  • Magneto dynamical studies at Fermi@Elettra. A white paper.Parmigiani F., Malvestuto M.;(2011)
Last Updated on Thursday, 04 May 2023 09:27