Ding S, Liang Z, Go D, Yun C, Xue M, Liu Z, Becker S, Yang W, Du H, Wang C, Yang Y, Jakob G, Klaui M, Mokrousov Y, Yang J (2022)
Publication Type: Journal article
Publication year: 2022
Book Volume: 128
Article Number: 067201
Journal Issue: 6
DOI: 10.1103/PhysRevLett.128.067201
We report the observation of magnetoresistance (MR) that could originate from the orbital angular momentum (OAM) transport in a permalloy (Py)/oxidized Cu (Cu∗) heterostructure: the orbital Rashba-Edelstein magnetoresistance. The angular dependence of the MR depends on the relative angle between the induced OAM and the magnetization in a similar fashion as the spin Hall magnetoresistance. Despite the absence of elements with large spin-orbit coupling, we find a sizable MR ratio, which is in contrast to the conventional spin Hall magnetoresistance which requires heavy elements. Through Py thickness-dependence studies, we conclude another mechanism beyond the conventional spin-based scenario is responsible for the MR observed in Py/Cu∗ structures - originated in a sizable transport of OAM. Our findings not only suggest the current-induced torques without using any heavy elements via the OAM channel but also provide an important clue towards the microscopic understanding of the role that OAM transport can play for magnetization dynamics.
APA:
Ding, S., Liang, Z., Go, D., Yun, C., Xue, M., Liu, Z.,... Yang, J. (2022). Observation of the Orbital Rashba-Edelstein Magnetoresistance. Physical Review Letters, 128(6). https://doi.org/10.1103/PhysRevLett.128.067201
MLA:
Ding, Shilei, et al. "Observation of the Orbital Rashba-Edelstein Magnetoresistance." Physical Review Letters 128.6 (2022).
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