The microscopic origin of DMI in magnetic bilayers and prediction of giant DMI in new bilayers

Jadaun, Priyamvada; Register, Leonard F.; Banerjee, S.

doi:10.1038/s41524-020-00351-1

Cited by 43 publications

(30 citation statements)

References 49 publications

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“…The number of [Co/Ni/Pt] repetitions N was varied between 1 and 5. The authors’ choice of materials was motivated by reports that Pt/Co and Pt/Ni interfaces were predicted to have different signs of iDMI, [ 39 ] such that an additive iDMI may be achieved when they were incorporated in a structurally asymmetric Pt/Co/Ni/Pt heterostructure. [ 40 ]…”

Section: Methodsmentioning

confidence: 99%

Dynamic Symmetry Breaking in Chiral Magnetic Systems

et al. 2021

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The Dzyaloshinskii–Moriya interaction (DMI) in magnetic systems stabilizes spin textures with preferred chirality, applicable to next‐generation memory and computing architectures. In perpendicularly magnetized heavy‐metal/ferromagnet films, the interfacial DMI originating from structural inversion asymmetry and strong spin‐orbit coupling favors chiral Néel‐type domain walls (DWs) whose energetics and mobility remain at issue. Here, a new effect is characterized in which domains expand unidirectionally in response to a combination of out‐of‐plane and in‐plane magnetic fields, with the growth direction controlled by the in‐plane field strength. These growth directionalities and symmetries with applied fields cannot be understood from static treatments alone. The authors theoretically demonstrate that perpendicular field torques stabilize steady‐state magnetization profiles highly asymmetric in elastic energy, resulting in a dynamic symmetry breaking consistent with the experimental findings. This phenomenon sheds light on the mechanisms governing the dynamics of Néel‐type DWs and expands the utility of field‐driven DW motion to probe and control chiral DWs.

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Section: Methodsmentioning

confidence: 99%

Dynamic Symmetry Breaking in Chiral Magnetic Systems

et al. 2021

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“…WXY Z[\ is very small and positive for the control sample [region (d)]. The small value of 9:; RST , is in accordance with the fact the interfacial DMI is usually small for early 5d elements like Hf and Ta due to their small SOC[41].9:; RST , increases, accompanied by a sign reversal after oxidizing the CoFe surface [region (a) and (b)]. We furthermore observed a minimum in 9:; RST , at the transition from region (b) to (c)until it stabilizes at above dTa = 1 nm.…”

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confidence: 67%

Variation of sign and magnitude of the Dzyaloshinskii-Moriya interaction of a ferromagnet with an oxide interface

2020

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We demonstrate that both the magnitude and sign of the Dzyaloshinskii-Moriya interaction can be tuned by modifying the type and thickness of an oxide layer adjacent to a ferromagnet. We focus on Ti/Cu/Co90Fe10/Ta(dTa)/Oxide/Ta structures, where the Ta interlayer thickness dTa ranged from 0 nm to 3 nm, followed by an exposure to oxygen and "Oxide" can mean CoFeOx and/or TaOx. We used Brillouin light scattering spectroscopy to directly determine the volume-averaged Dzyaloshinkii-Moriya interaction from the nonreciprocity of the spin-wave frequency. The magnitude of the interfacial Dzyaloshinkskii-Moriya interaction, DDMI, ranges from -0.17 to + 0.09 (± 0.02) mJ/m 2 , clearly showing a change in both sign and magnitude, with an increase of Ta interlayer thickness. The modification of the oxide interface allows us to systematically change the hybridization of the 3d-CoFe orbitals from 3d-5d to 3d-2p and analyze the influence on the Dzyaloshinskii-Moriya interaction. Importantly, we can vary the Dzyaloshinskii-Moriya interaction while maintaining a relatively small value of the damping parameter.

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“…The Pt/Co interfaces are expected to provide a large magnetic anisotropy perpendicular to the layers and host a large positive DMI. (Values of +1.5-+3 meV have been reported (Yang et al, 2015;Boulle et al, 2016;Jadaun et al, 2020).) On the other hand, the Pt/Py interface should host a negative DMI.…”

Section: Methodsmentioning

confidence: 89%

“…On the other hand, the Pt/Py interface should host a negative DMI. (Values of approximately −1 meV have been reported for Pt/Py (Nembach et al, 2015) and Pt/Ni interfaces (Chen et al, 2013;Jadaun et al, 2020).) The stack was deposited directly onto a 15-nm-thick SiN membrane using DC magnetron sputtering.…”

Section: Methodsmentioning

confidence: 99%

Visibility and Apparent Size of Néel-Type Magnetic Skyrmions in Fresnel Defocus Images of Multilayer Films

et al. 2021

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Multilayers that comprise thin films of heavy metals and ferromagnets have been shown to host Néel-type magnetic skyrmions at room temperature. Fresnel defocus imaging in Lorentz transmission electron microscopy is a widely used technique for recording magnetic information about skyrmions. However, the visibility of Néel-type skyrmions in Fresnel defocus images is typically low, both because only a small component of their magnetic field contributes to the signal and because of the presence of diffraction contrast from the polycrystalline multilayer structure. Here, we take advantage of the out-of-plane hysteresis in such samples to record background-subtracted Fresnel defocus images. We demonstrate an improvement in magnetic signal-to-noise ratio and spatial resolution by a factor of 3 for a (Pt/Co/NiFe)×5 multilayer. We also use simulated Fresnel defocus images of Néel-type magnetic skyrmions to understand the influence of defocus on apparent skyrmion size.

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The microscopic origin of DMI in magnetic bilayers and prediction of giant DMI in new bilayers

Cited by 43 publications

References 49 publications

Dynamic Symmetry Breaking in Chiral Magnetic Systems

Dynamic Symmetry Breaking in Chiral Magnetic Systems

Variation of sign and magnitude of the Dzyaloshinskii-Moriya interaction of a ferromagnet with an oxide interface

Visibility and Apparent Size of Néel-Type Magnetic Skyrmions in Fresnel Defocus Images of Multilayer Films

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