Zhenzhao Jia, Baoming Yan, Jingjing Niu, Qi Han, Rui Zhu, Xiaosong Wu, Dapeng Yu
Published 2014-09-29Version 1
Enhancement of the spin-orbit coupling in graphene may lead to various topological phenomena and also find applications in spintronics. Adatom absorption has been proposed as an effective way to achieve the goal. In particular, great hope has been held for indium in strengthening the spin-orbit coupling and realizing the quantum spin Hall effect. To search for evidence of the spin-orbit coupling in graphene absorbed with indium adatoms, we carry out extensive transport measurements, i.e., weak localization magnetoresistance, quantum Hall effect and non-local spin Hall effect. No signature of the spin-orbit coupling is found. Possible explanations are discussed.
Comments: 5 pages, 4 figures, with supplementary materials
Many-body generalization of the Z2 topological invariant for the quantum spin Hall effect
Quantum spin Hall effect induced by non-magnetic and magnetic staggered potentials
Quantum Spin Hall Effect and Enhanced Magnetic Response by Spin-Orbit Coupling
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