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Gate-tunable spin-galvanic effect in graphene-topological insulator van der Waals heterostructures at room temperature

Dmitrii Khokhriakov, Anamul Md. Hoque, Bogdan Karpiak, Saroj P. Dash

2020Nature Communications92 citationsDOIOpen Access PDF

Abstract

Unique electronic spin textures in topological states of matter are promising for emerging spin-orbit driven memory and logic technologies. However, there are several challenges related to the enhancement of their performance, electrical gate-tunability, interference from trivial bulk states, and heterostructure interfaces. We address these challenges by integrating two-dimensional graphene with a three-dimensional topological insulator (TI) in van der Waals heterostructures to take advantage of their remarkable spintronic properties and engineer proximity-induced spin-charge conversion phenomena. In these heterostructures, we experimentally demonstrate a gate-tunable spin-galvanic effect (SGE) at room temperature, allowing for efficient conversion of a non-equilibrium spin polarization into a transverse charge current. Systematic measurements of SGE in various device geometries via a spin switch, spin precession, and magnetization rotation experiments establish the robustness of spin-charge conversion in the Gr-TI heterostructures. Importantly, using a gate voltage, we reveal a strong electric field tunability of both amplitude and sign of the spin-galvanic signal. These findings provide an efficient route for realizing all-electrical and gate-tunable spin-orbit technology using TIs and graphene in heterostructures, which can enhance the performance and reduce power dissipation in spintronic circuits.

Topics & Concepts

SpintronicsTopological insulatorGraphenevan der Waals forceMaterials scienceHeterojunctionCondensed matter physicsMagnetizationElectric fieldRobustness (evolution)Insulator (electricity)Spin (aerodynamics)Spin polarizationOptoelectronicsDissipationEnergy conversion efficiencyPolarization (electrochemistry)Magnetic fieldNanotechnologyAmplitudePhysicsSpin engineeringTopological Materials and Phenomena2D Materials and ApplicationsGraphene research and applications
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