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Detection of spin-wave excitations of a domain structure in an yttrium-iron garnet film using the inverse spin Hall effect
Russian version
Vysotskii S. L. 1,2, Seleznev M. E. 1, Nirulin Yu. V. 1,2, Kozhevnikov A. V. 1, Amahanov G. M.1,3, Timiryazev A. G. 4
1Saratov Branch, Kotel’nikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, Saratov, Russia
2Saratov State University, Saratov, Russia
3Yuri Gagarin State Technical University of Saratov, Saratov, Russia
4Fryazino Branch, Kotel’nikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, Fryazino, Moscow oblast, Russia
Email: vysotsl@gmail.com, mixanich94@mail.ru, yvnikulin@gmail.com, kzhavl@gmail.com, agm.05@yandex.ru, temiryazev@gmail.com
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Using the inverse spin Hall effect, the generation of EMF in a waveguide cut from an epitaxial film of yttrium-iron garnet (YIG) of crystallographic orientation (111) with a thickness of 15.6 μm and dimensions of 10x5 mm was studied, on the surface of which a strip of platinum with a thickness of 4 nm, a width of 25 μm and a length of 4 mm was deposited, when used as a pump spin-wave excitations of the domain structure. The magnetization field tangent to the surface of the structure was directed parallel to the crystallographic axis <110> of the YIG film. The possibility of EMF registration is shown both in the case of in-phase and antiphase magnetization oscillations in domains and for domain walls' displacement waves. The dependence of the measured EMF level on the type of spin-wave excitation and the magnitude of the magnetization field is investigated. It is shown that the volt-watt sensitivity (the ratio of EMF to the power of spin-wave excitation) can be comparable with a similar parameter for saturated YIG films. Keywords: magnetostatic surface waves, epitaxial film of yttrium-iron garnet, magnetic domains, platinum.
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