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Efficient Spin-Orbit Torque Generation in Semiconducting WTe<sub>2</sub> with Hopping Transport

Cheng-Wei Peng, Wei-Bang Liao, Tian-Yue Chen, Chi‐Feng Pai

2021ACS Applied Materials & Interfaces25 citationsDOIOpen Access PDF

Abstract

Spin-orbit torques (SOTs) from transition metal dichalcogenide systems (TMDs) in conjunction with ferromagnetic materials are recently found to be attractive in spintronics for their versatile features. However, most of the previously studied crystalline TMDs are prepared by mechanical exfoliation, which limits their potentials for industrial applications. Here, we show that amorphous WTe2 heterostructures deposited by magnetron sputtering possess a sizable damping-like SOT efficiency of ξDLWTe2 ≈ 0.20 and low damping constant of α = 0.009 ± 0.001. Only an extremely low critical switching current density of Jc≈ 7.05 × 109 A/m2 is required to achieve SOT-driven magnetization switching. The SOT efficiency is further proved to depend on the W and Te relative compositions in the co-sputtered W100–xTex samples, from which a sign change of ξDLWTe2 is observed. In addition, the electronic transport in amorphous WTe2 is found to be semiconducting and is governed by a hopping mechanism. With the above advantages and rich tunability, amorphous and semiconducting WTe2 serves as a unique SOT source for future spintronics applications.

Topics & Concepts

Materials scienceTorqueSpin (aerodynamics)Engineering physicsCondensed matter physicsOptoelectronicsAerospace engineeringPhysicsThermodynamicsEngineeringMagnetic properties of thin filmsQuantum and electron transport phenomenaTopological Materials and Phenomena