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Magnetic nutation: Transient separation of magnetization from its angular momentum

Anulekha De, Jacob P. Schlegel, Akira Lentfert, Laura Scheuer, Benjamin Stadtmüller, Philipp Pirro, Georg von Freymann, U. Nowak, Martin Aeschlimann

2025Physical review. B./Physical review. B12 citationsDOI

Abstract

Using a TR-MOKE experiment and atomistic spin dynamics simulations, the authors show here that a sudden, incoherent, ``kick'' to the spin system of a ferromagnet not only triggers the well-known precession (GHz range), but also, on top, a faster nutation (sub-THz range). The separation of magnetization from angular momentum leading to nutation is an inherent phenomenon occurring during the relaxation of a nonequilibrium excitation of a magnetic system using ultrashort optical pulses. The study allows us to integrate different processes, ranging from demagnetization via nutation to precession in a single experiment.

Topics & Concepts

NutationTransient (computer programming)MagnetizationAngular momentumPhysicsSeparation (statistics)MechanicsClassical mechanicsMagnetic fieldMathematicsComputer scienceQuantum mechanicsOperating systemStatisticsMagnetic properties of thin filmsGeomagnetism and Paleomagnetism StudiesMagnetic and Electromagnetic Effects
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