Berlin 2024 – wissenschaftliches Programm

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TT: Fachverband Tiefe Temperaturen

TT 34: Focus Session: Dynamical Probes for Topological Magnetism

TT 34.3: Hauptvortrag

Mittwoch, 20. März 2024, 10:30–11:00, H 0104

Probing spin dynamics by Hall effect and emergent inductance — •Max Hirschberger^1,2, Jan Masell^2,3, and Rinsuke Yamada¹ — ¹Dept. of Applied Physics, Univ. Tokyo, Tokyo, Japan — ²RIKEN Center for Emergent Matter Science, Wako, Japan — ³Karlsruhe Institute of Technology, Karlsruhe, Germany

For helimagnetic textures, an ongoing interest is the investigation of spin dynamics driven by current, or generated by thermal fluctuations. We study thermally induced spin chirality using the Hall / Nernst effects [1,2], and aim to develop inductance measurements, that is the detection of a phase-shifted voltage in response to a current excitation, as a tool to probe the low-lying excitations of spirals and cycloids, supporting thermodynamic and neutron scattering techniques.

Nagaosa (2019) first proposed that current-induced spin tilting of a proper screw or cycloid texture in metallic helimagnets generates an emergent electric field e_em that is time delayed with respect to the excitation current; namely, an inductive response. This e_em can be understood as spin winding in a two-dimensional plane spanned by time and space axes [3]. We have studied e_em in spiral magnets, such as Gd₃Ru₄Al₁₂, and found a sizable response that is linear in frequency, but nonlinear in the excitation current [4,5].

[1] K. Kolincio, M. Hirschberger et al., PNAS 118 (2021) e2023588118

[2] K. Kolincio, M. Hirschberger et al., PRL 130 (2023) 136701

[3] N. Nagaosa, Jpn. J. Appl. Phys. 58 (2019) 120909

[4] T. Yokouchi, F. Kagawa, M. Hirschberger et al., Nature 586 (2020) 232

[5] R. Yamada, M. Hirschberger, et al., in preparation (2024)

Keywords: Helimagnet; Spin chirality; Spin fluctuation; Emergent electromagnetism; Emergent inductance