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Paper detail

Strong spin-orbit fields and Dyakonov-Perel spin dephasing in supported metallic films

Spin dephasing by the Dyakonov-Perel mechanism in metallic films deposited on insulating substrates is revealed, and quantitatively examined by means of density functional calculations combined with a kinetic equation. The surface-to-substrate asymmetry, probed by the metal wave functions in thin films, is found to produce strong spin-orbit fields and a fast Larmor precession, giving a dominant contribution to spin decay over the Elliott-Yafet spin relaxation up to a thickness of 70 nm. The spin dephasing is oscillatory in time with a rapid (sub-picosecond) initial decay. However, parts of the Fermi surface act as spin traps, causing a persistent tail signal lasting 1000 times longer than the initial decay time. It is also found that the decay depends on the direction of the initial spin polarization, resulting in a spin-dephasing anisotropy of 200% in the examined cases.

preprint2016arXivOpen access
Nguyen H. LongPhivos MavropoulosDavid S. G. BauerBernd ZimmermannYuriy MokrousovStefan Blügel
cond-mat.mes-hall
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Nguyen H. LongPhivos MavropoulosDavid S. G. BauerBernd ZimmermannYuriy MokrousovStefan Blügel

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