Litcius/Paper detail

Spin manipulation by giant valley-Zeeman spin-orbit field in atom-thick WSe2

Xinhe Wang, Wei Yang, Wang Yang, Yuan Cao, Xiaoyang Lin, Guodong Wei, Haichang Lu, Peizhe Tang, Weisheng Zhao

2022Applied Physics Reviews24 citationsDOIOpen Access PDF

Abstract

The phenomenon originating from spin–orbit coupling provides energy-efficient strategies for spin manipulation and device applications. The broken inversion symmetry interface and the resulting electric field induce a Rashba-type spin–orbit field (SOF), which has been demonstrated to generate spin–orbit torque for data storage applications. In this study, we found that spin flipping can be achieved by the valley-Zeeman SOF in monolayer WSe2 at room temperature, which manifests as a negative magnetoresistance in the vertical spin valve. Quantum transmission calculations based on an effective model near the K valley of WSe2 confirm the precessional spin transport of carriers under the giant SOF, which is estimated to be 650 T. In particular, the valley-Zeeman SOF-induced spin dynamics was demonstrated to be tunable with the layer number and stacking phase of WSe2 as well as the gate voltage, which provides a novel strategy for spin manipulation and can benefit the development of ultralow-power spintronic devices.

Topics & Concepts

Zeeman effectCondensed matter physicsSpintronicsSpin–orbit interactionSpin (aerodynamics)Point reflectionSpin valvePhysicsGiant magnetoresistanceMagnetic fieldMagnetoresistanceQuantum mechanicsFerromagnetismThermodynamicsQuantum and electron transport phenomena2D Materials and ApplicationsElectronic and Structural Properties of Oxides
Spin manipulation by giant valley-Zeeman spin-orbit field in atom-thick WSe2 | Litcius