Krieger, K., Elliott, P., Singh, N., Dewhurst, J. K., Gross, E. K. U., Sharma, S.
Ultrafast demagnetization in bulk versus thin films: An ab initio study
Journal of Physics: Condensed Matter 29, (22),pp 224001/1-7 (2017)
We report ab initio simulations of the quantum dynamics of electronic charge and spins when
subjected to intense laser pulses. By performing these purely electron-dynamics calculations for a
thin film and for the bulk of Ni, we conclude that formation of surfaces has a dramatic influence of
amplifying the laser induced demagnetization. The reason for this amplification is enhanced spincurrents on the surface of the thin films. We show that the underlying physics of demagnetization
for bulk is dominated by spin-flips induced by spin-orbit coupling. In the case of thin films, the
dominant cause of demagnetization is a combination of the flow of spin-currents and spin-flips. Furthermore, a comparison of our results with experimental data shows that below ∼ 120 fs
processes of demagnetization are entirely dominated by purely electronic processes followed by
which dissipative effects like the Elliott-Yafet mechanism start to contribute significantly.
TH-2017-16