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Dresden 2014 – wissenschaftliches Programm

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MA: Fachverband Magnetismus

MA 55: Poster II

MA 55.66: Poster

Freitag, 4. April 2014, 10:30–13:30, P2

Time Resolved Spin Seebeck Effect Experiments as a Probe of Magnon-Phonon Thermalization TimeNiklas Roschewsky1, Michael Schreier1, Akashdeep Kamra1,2, Felix Schade1, •Kathrin Ganzhorn1, Sibylle Meyer1, Hans Huebl1, Stephan Gepraegs1, Rudolf Gross1,3, and Sebastian T. B. Goennenwein11Walther-Meißner-Institut, Bayerische Akademie der Wissenschaften, Garching, Germany — 2Kavli Institut of Nanoscience, Delft University of Technology, Delft, The Netherlands — 3Physik-Department, TU München, Garching, Germany

We investigate magnon-phonon interaction times in the ferrimagnetic insulator yttrium iron garnet by means of time-resolved spin Seebeck effect experiments at room temperature [1]. We use an intensity modulated laser beam to dynamically generate a temperature gradient across yttrium iron garnet/normal metal thin film stacks, and record the ensuing spin Seebeck voltage. Our measurements show no intrinsic frequency dependence of the spin Seebeck voltage up to laser modulation frequencies corresponding to timescales of a few nanoseconds. These results put an upper limit to the magnon-phonon interaction time constant relevant for the spin Seebeck effect at room temperature, suggesting that small wavenumber k magnons, with magnon-phonon interaction times of a few hundred nanoseconds, do not play an important role for the spin Seebeck effect in these structures.
This work is supported by the DFG via SPP 1538 and the German Excellence Initiative via the Nanosystems Initiative Munich (NIM).
[1] N. Roschewsky et al., arXiv 1309:3986.

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