Transient electronic and magnetic structures of nickel heated by ultrafast laser pulses
Publication date
2009-09
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Abstract
We investigate the evolution of the Ni electronic and magnetic structure on fs to ps time scales following fs-laser excitation. Within 200 fs after excitation the Ni 3d ferromagnetic moment is reduced as probed by x-ray magnetic circular dichroism. At the same time the Ni 3d electronic structure undergoes pronounced changes as demonstrated by x-ray absorption spectroscopy. We show that the latter persists also into thermal equilibrium which is reached on the ps time scale. Cluster calculations identify a reduction in 3d-4sp hybridization possibly associated with phonon-driven spin-flip excitations.
Keywords
band structure, magnetic circular dichroism, magnetic moments, magnetic structure, nickel, X-ray absorption spectra, X-RAY-ABSORPTION, CIRCULAR-DICHROISM, TEMPERATURE-DEPENDENCE, FERROMAGNETIC NICKEL, NI 2P, EXCHANGE, PHOTOEMISSION, EXCITATIONS, SPECTRUM, IRON
Citation
Kachel, T, Pontius, N, Stamm, C, Wietstruk, M, Aziz, E F, Duerr, H A, Eberhardt, W & de Groot, F M F 2009, 'Transient electronic and magnetic structures of nickel heated by ultrafast laser pulses', Physical Review B - Condensed Matter and Materials Physics, vol. 80, no. 9, 092404. https://doi.org/10.1103/PhysRevB.80.092404