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Advisor(s)
Abstract(s)
We investigate the origin of ferromagnetism induced in thin-film (similar to 20 nm) Fe-V alloys by their irradiation with subpicosecond laser pulses. We find with Rutherford backscattering that the magnetic modifications follow a thermally stimulated process of diffusion decomposition, with formation of a-few-nm-thick Fe enriched layer inside the film. Surprisingly, similar transformations in the samples were also found after their long-time (similar to 10(3) s) thermal annealing. However, the laser action provides much higher diffusion coefficients (similar to 4 orders of magnitude) than those obtained under standard heat treatments. We get a hint that this ultrafast diffusion decomposition occurs in the metallic glassy state achievable in laser-quenched samples. This vitrification is thought to be a prerequisite for the laser-induced onset of ferromagnetism that we observe. 2014 Elsevier B.V. All rights reserved.
Description
Keywords
Metallic alloys Phase separation Laser quenching Ferromagnetism
Citation
POLUSHKIN, N. I.; [et al.] - Laser-induced diffusion decomposition in Fe-V thin-film alloys. Applied Surface Science. ISSN. 0169-4332. Vol. 336 (2015), pp. 380-384
Publisher
Elsevier Science BV