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arxiv: 2012.14216 · v2 · pith:EQNBRP36 · submitted 2020-12-28 · cond-mat.mes-hall

Effect of proximity-induced spin-orbit coupling in graphene mesoscopic billiards

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classification cond-mat.mes-hall
keywords couplingspin-orbitgraphenemesoscopicquantumactiveaimingantilocalization
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Van der Waals heterostructures based on two-dimensional materials have recently become a very active topic of research in spintronics, both aiming at a fundamental description of spin dephasing processes in nanostructures and as a potential element in spin-based information processing schemes. Here, we theoretically investigate the magnetoconductance of mesoscopic devices built from graphene proximity-coupled to a high spin-orbit coupling material. Through numerically exact tight-binding simulations, we show that the interfacial breaking of inversion symmetry generates robust weak antilocalization even when the $z\rightarrow -z$ symmetric spin-orbit coupling in the quantum dot dominates over the Bychkov--Rashba interaction. Our findings are in interpreted on the light of random matrix theory, which links the observed behavior of quantum interference corrections to a transition from circular-orthogonal to circular-sympletic ensemble.

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