Xiufeng Han scite author profile

The promise of high-density and low-energy-consumption devices motivates the search for layered structures that stabilize chiral spin textures such as topologically protected skyrmions. At the same time, recently discovered long-range intrinsic magnetic orders in the two-dimensional van der Waals materials provide a new platform for the discovery of novel physics and effects. Here we demonstrate the Dzyaloshinskii-Moriya interaction and Néeltype skyrmions are induced at the WTe 2 /Fe 3 GeTe 2 interface. Transport measurements show the topological Hall effect in this heterostructure for temperatures below 100 K. Furthermore, Lorentz transmission electron microscopy is used to directly image Néel-type skyrmion lattice and the stripe-like magnetic domain structures as well. The interfacial coupling induced Dzyaloshinskii-Moriya interaction is estimated to have a large energy of 1.0 mJ m −2. This work paves a path towards the skyrmionic devices based on van der Waals layered heterostructures.

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Room-Temperature Skyrmion Shift Device for Memory Application

Upadhyaya

et al. 2016

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Magnetic skyrmions are intensively explored for potential applications in ultralow-energy data storage and computing. To create practical skyrmionic memory devices, it is necessary to electrically create and manipulate these topologically protected information carriers in thin films, thus realizing both writing and addressing functions. Although room-temperature skyrmions have been previously observed, fully electrically controllable skyrmionic memory devices, integrating both of these functions, have not been developed to date. Here, we demonstrate a room-temperature skyrmion shift memory device, where individual skyrmions are controllably generated and shifted using current-induced spin-orbit torques. Particularly, it is shown that one can select the device operation mode in between (i) writing new single skyrmions or (ii) shifting existing skyrmions by controlling the magnitude and duration of current pulses. Thus, we electrically realize both writing and addressing of a stream of skyrmions in the device. This prototype demonstration brings skyrmions closer to real-world computing applications.

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Current-driven magnetization switching in a van der Waals ferromagnet Fe ₃ GeTe ₂

et al. 2019

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The recent discovery of ferromagnetism in two-dimensional (2D) van der Waals (vdW) materials holds promises for spintronic devices with exceptional properties. However, to use 2D vdW magnets for building spintronic nanodevices such as magnetic memories, key challenges remain in terms of effectively switching the magnetization from one state to the other electrically. Here, we devise a bilayer structure of Fe3GeTe2/Pt, in which the magnetization of few-layered Fe3GeTe2 can be effectively switched by the spin-orbit torques (SOTs) originated from the current flowing in the Pt layer. The effective magnetic fields corresponding to the SOTs are further quantitatively characterized using harmonic measurements. Our demonstration of the SOT-driven magnetization switching in a 2D vdW magnet could pave the way for implementing low-dimensional materials in the next-generation spintronic applications.

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Xiufeng Han

Néel-type skyrmion in WTe2/Fe3GeTe2 van der Waals heterostructure

Room-Temperature Skyrmion Shift Device for Memory Application

Current-driven magnetization switching in a van der Waals ferromagnet Fe ₃ GeTe ₂

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Xiufeng Han

Néel-type skyrmion in WTe2/Fe3GeTe2 van der Waals heterostructure

Room-Temperature Skyrmion Shift Device for Memory Application

Current-driven magnetization switching in a van der Waals ferromagnet Fe 3 GeTe 2

Contact Info

Product

Resources

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Current-driven magnetization switching in a van der Waals ferromagnet Fe ₃ GeTe ₂