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Spin Hall effect: Symmetry breaking, twisting, and giant disorder renormalization

David T. S. Perkins, Alessandro Veneri, Aires Ferreira

2024Physical review. B./Physical review. B11 citationsDOIOpen Access PDF

Abstract

Atomically thin materials based on transition-metal dichalcogenides and graphene offer a promising avenue for unlocking the mechanisms underlying the spin Hall effect (SHE) in heterointerfaces. Here we develop a microscopic theory of the SHE for twisted van der Waals heterostructures that fully incorporates twisting and disorder effects and illustrate the critical role of symmetry breaking in the generation of spin Hall currents. We find that an accurate treatment of vertex corrections leads to a qualitatively and quantitatively different SHE than that obtained from the popular <a:math xmlns:a="http://www.w3.org/1998/Math/MathML"><a:mrow><a:mi>i</a:mi><a:mi>η</a:mi></a:mrow></a:math> and ladder approximations. A pronounced oscillatory behavior of skew-scattering processes with twist angle <b:math xmlns:b="http://www.w3.org/1998/Math/MathML"><b:mi>θ</b:mi></b:math> is predicted, reflecting a nontrivial interplay of Rashba and valley-Zeeman effects and yields a vanishing SHE for <c:math xmlns:c="http://www.w3.org/1998/Math/MathML"><c:mrow><c:mi>θ</c:mi><c:mo>=</c:mo><c:msup><c:mn>30</c:mn><c:mo>∘</c:mo></c:msup></c:mrow></c:math> and, for graphene-<d:math xmlns:d="http://www.w3.org/1998/Math/MathML"><d:msub><d:mi>WSe</d:mi><d:mn>2</d:mn></d:msub></d:math> heterostructures, an optimal SHE for <e:math xmlns:e="http://www.w3.org/1998/Math/MathML"><e:mrow><e:mi>θ</e:mi><e:mo>≈</e:mo><e:msup><e:mn>17</e:mn><e:mo>∘</e:mo></e:msup></e:mrow></e:math>. Our findings reveal disorder and broken symmetries as important knobs to optimize interfacial SHEs. Published by the American Physical Society 2024

Topics & Concepts

Condensed matter physicsSymmetry breakingPhysicsRenormalizationSpin (aerodynamics)Symmetry (geometry)Quantum mechanicsMathematicsGeometryThermodynamicsTopological Materials and PhenomenaQuantum and electron transport phenomenaGraphene research and applications
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