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MA: Fachverband Magnetismus

MA 57: Posters Magnetism II

MA 57.6: Poster

Donnerstag, 19. März 2020, 15:00–18:00, P3

Thermally generated spin transport in Fe₃O₄/NiO/Pt trilayers — •Johannes Demir¹, Stefan Becker¹, Lennart Schwan², Olga Kuschel³, Joachim Wollschläger³, and Timo Kuschel¹ — ¹Center for Spineletronic Materials and Devices, Bielefeld University, Germany — ²Bielefeld Institute for Applied Materials Research (BIfAM), Bielefeld University of Applied Sciences, Department of Engineering Sciences and Mathematics, Germany — ³Center of Physics and Chemistry of New Materials, Osnabrück University, Germany

We investigate the spin Seebeck effect (SSE) in Fe₃O₄/NiO/Pt trilayers by varying the thickness of the antiferromagnetic NiO layer from 0 to 20 nm. Furthermore, we compare the normalization of the SSE voltage to the temperature difference as well as to the experimentally detected heat flux [1]. The Fe₃O₄/NiO bilayer is grown in situ by molecular-beam epitaxy, while the Pt layer is deposited ex situ by DC sputtering. We discuss a possible enhancement of the spin-current signal in 1 nm NiO on 48 nm and 22 nm Fe₃O₄ for the temperature difference (as reported in literature [2]) as well as for the heat flux method. Additionally, we simulate the temperature gradient in Fe₃O₄ in an equivalent circuit model depending on the NiO thermal conductivity and the interface thermal conductances to examine the influence of the thermal depth profile of the NiO layer on the thermally induced spin current.

[1] A. Sola et al., Sci. Rep. 7, 46752 (2017)

[2] L. Baldrati et al., Phys. Rev. B 98, 014409 (2018)