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Paper detail

Itinerant and localized magnetization dynamics in antiferromagnetic Ho

Using femtosecond time-resolved resonant magnetic x-ray diffraction at the Ho L3 absorption edge, we investigate the demagnetization dynamics in antiferromagnetically ordered metallic Ho after femtosecond optical excitation. Tuning the x-ray energy to the electric dipole (E1, 2p -> 5d) or quadrupole (E2, 2p -> 4f) transition allows us to selectively and independently study the spin dynamics of the itinerant 5d and localized 4f electronic subsystems via the suppression of the magnetic (2 1 3-tau ) satellite peak. We find demagnetization timescales very similar to ferromagnetic 4f systems, suggesting that the loss of magnetic order occurs via a similar spin-flip process in both cases. The simultaneous demagnetization of both subsystems demonstrates strong intra-atomic 4f-5d exchange coupling. In addition, an ultrafast lattice contraction due to the release of magnetostriction leads to a transient shift of the magnetic satellite peak.

preprint2015arXivOpen access
L. RettigC. DornesN. Thielemann-KuehnN. PontiusH. ZabelD. L. SchlagelT. A. LograssoM. CholletA. RobertM. SikorskiS. SongJ. M. GlowniaC. Schuessler-LangeheineS. L. JohnsonU. Staub
cond-mat.str-el
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L. RettigC. DornesN. Thielemann-KuehnN. PontiusH. ZabelD. L. SchlagelT. A. LograssoM. CholletA. RobertM. SikorskiS. SongJ. M. GlowniaC. Schuessler-LangeheineS. L. JohnsonU. Staub

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