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Giant nonlinear Hall effect in twisted bilayer WTe2

Zhihai He, Hongming Weng

2021npj Quantum Materials56 citationsDOIOpen Access PDF

Abstract

Abstract In a system with broken inversion symmetry, a second-order nonlinear Hall effect can survive even in the presence of time-reversal symmetry. In this work, we show that a giant nonlinear Hall effect can exist in twisted bilayer WTe 2 system. The Berry curvature dipole of twisted bilayer WTe 2 ( θ = 29.4°) can reach up to ~1400 Å, which is much larger than that in previously reported nonlinear Hall systems. In twisted bilayer WTe 2 system, there exist abundant band anticrossings and band inversions around the Fermi level, which brings a complicated distribution of Berry curvature, and leads to the nonlinear Hall signals that exhibit dramatically oscillating behavior in this system. Its large amplitude and high tunability indicate that the twisted bilayer WTe 2 can be an excellent platform for studying the nonlinear Hall effect.

Topics & Concepts

Berry connection and curvatureBilayerCondensed matter physicsPoint reflectionPhysicsHall effectDipoleNonlinear systemCurvatureSymmetry (geometry)AmplitudeQuantum mechanicsGeometryChemistryMagnetic fieldMathematicsGeometric phaseBiochemistryMembraneTopological Materials and PhenomenaQuantum and electron transport phenomenaGraphene research and applications
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