Many-Body Theory of Ultrafast Demagnetization and Angular Momentum Transfer in Ferromagnetic Transition Metals

Many-Body Theory of Ultrafast Demagnetization and Angular Momentum Transfer in Ferromagnetic Transition Metals

Exact calculated time evolutions in the framework of a many-electron model of itinerant magnetism provide new insights into the laser-induced ultrafast demagnetization observed in ferromagnetic (FM) transition metal thin films. The interplay between local spin-orbit interactions and interatomic hopp...

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Veröffentlicht in:Physical review letters 2015-11, Vol.115 (21), p.217204-217204, Article 217204
Hauptverfasser: Töws, W, Pastor, G M
Format: Artikel
Sprache:eng
Schlagworte:
Angular momentum
Breakdown
Demagnetization
Evolution
Ferromagnetic materials
Ferromagnetism
Thin films
Transition metals
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Zusammenfassung:Exact calculated time evolutions in the framework of a many-electron model of itinerant magnetism provide new insights into the laser-induced ultrafast demagnetization observed in ferromagnetic (FM) transition metal thin films. The interplay between local spin-orbit interactions and interatomic hopping is shown to be at the origin of the observed postexcitation breakdown of FM correlations between highly stable local magnetic moments. The mechanism behind spin- and angular-momentum transfer is revealed from a microscopic perspective by rigorously complying with all fundamental conservation laws. An energy-resolved analysis of the time evolution shows that the efficiency of the demagnetization process reaches almost 100% in the excited states.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.115.217204