Naoaki Kato scite author profile

Naoaki Kato

2Publications

38Citation Statements Received

105Citation Statements Given

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The University of Tokyo

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Dzyaloshinskii-Moriya interaction and spin-orbit torque at the Ir/Co interface

et al. 2019

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We studied the spin torque efficiency and the Dzyaloshinskii-Moriya interaction (DMI) of heterostructures that contain interface(s) of Ir and Co. The current-induced shifts of the anomalous Hall loops were used to determine the spin torque efficiency and DMI of [Pt/Co/X] multilayers (X=Ir, Cu) as well as Ir/Co and Pt/Ir/Co reference films. We find the effective spin Hall angle and the spin diffusion length of Ir to be ~0.01 and less than ~1 nm, respectively. The short spin diffusion length and the high conductivity make Ir an efficient spin sink layer. Such spin sink layer can be used to control the flow of spin current in heterostructures and to induce sufficient spin-orbit torque on the magnetic layer. The DMI of Ir and Co interface is found to be in the range of ~1.4 to ~2.2 mJ/m 2 , similar in magnitude to that of the Pt and Co interface. The Ir/Co and Pt/Co interfaces possess the same sign of DMI, resulting in a reduced DMI for the [Pt/Co/Ir] multilayers compared to that of the [Pt/Co/Cu] multilayers. These results show the unique role the Ir layer plays in defining spinorbit torque and chiral magnetism in thin film heterostructures.

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Current-Induced Modulation of the Interfacial Dzyaloshinskii-Moriya Interaction

et al. 2019

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The Dzyaloshinskii-Moriya (DM) interaction is an antisymmetric exchange interaction that is responsible for the emergence of chiral magnetism. The origin of the DM interaction, however, remains to be identified albeit the large number of studies reported on related effects. It has been recently suggested that the DM interaction is equivalent to an equilibrium spin current density originating from spin-orbit coupling, an effect referred to as the spin Doppler effect. The model predicts that the DM interaction can be controlled by spin current injected externally. Here we show that the DM exchange (D) constant in Ta / W / CoFeB heterostructures can be modulated with external current passed along the film plane: D increases linearly with current at low current density. As we find the polarity of current has little influence on the DM interaction, we infer the spin polarized current that flows within the FM layer is responsible for the current dependent DM interaction via the spin Doppler effect. These results imply that the DM interaction at the HM/FM interface partly originates from an equilibrium interface spin (polarized) current which can be modulated externally.

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Naoaki Kato

Dzyaloshinskii-Moriya interaction and spin-orbit torque at the Ir/Co interface

Current-Induced Modulation of the Interfacial Dzyaloshinskii-Moriya Interaction

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