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000020231 084__ $$2WoS$$aPhysics, Multidisciplinary
000020231 1001_ $$0P:(DE-Juel1)VDB1837$$aZhang, H.$$b0$$uFZJ
000020231 245__ $$aElectrically Tunable Quantum Anomalous Hall Effect in Graphene Decorated by 5d Transition-Metal Adatoms
000020231 260__ $$aCollege Park, Md.$$bAPS$$c2012
000020231 300__ $$a056802
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000020231 440_0 $$04925$$aPhysical Review Letters$$v108$$x0031-9007$$y5
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000020231 500__ $$aWe acknowledge discussions with Mojtaba Alaei, Frank Freimuth, Klaus Koepernik, Pengxiang Xu, Tobias Burnus, Gustav Bihlmayer, Marjana Lezaic, and Nicolae Atodiresei. This work was supported by the HGF-YIG Programme VH-NG-513 and by the DFG through Research Unit 912 and Grant No. HE3292/7-1. Computational resources were provided by the Julich Supercomputing Centre and the North-German Supercomputing Alliance (HLRN).
000020231 520__ $$aBased on first-principles calculations, we predict that 5d transition metals on graphene present a unique class of hybrid systems exhibiting topological transport effects that can be manipulated effectively by external electric fields. The origin of this phenomenon lies in the exceptional magnetic properties and the large spin-orbit interaction of the 5d metals leading to significant magnetic moments accompanied with colossal magnetocrystalline anisotropy energies. A strong magnetoelectric response is predicted that offers the possibility to switch the spontaneous magnetization direction by moderate electric fields, enabling an electrically tunable quantum anomalous Hall effect.
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