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Spatial variation of a giant spin–orbit effect induces electron confinement in graphene on Pb islands

by Barja, Sara , Calleja, Fabian , Miranda, Rodolfo , Ochoa, Héctor , Navarro, Juan Jesús , Garnica, Manuela , Otrokov, Mikhail M. , Arnau, Andrés , Chulkov, Evgueni V. , Black, Andrés , Vázquez de Parga, Amadeo L. , Guinea, Francisco

in 639/301/357/918/1052 / 639/766/119/544 / 639/766/119/995 / Atomic / Band structure of solids / Classical and Continuum Physics / Complex Systems / Condensed Matter Physics / Electronics / Electrons / Graphene / Iridium / Islands / Lead (metal) / letter / Magnetic fields / Materials science / Mathematical and Computational Physics / Molecular / Monolayers / Optical and Plasma Physics / Physics / Spin-orbit interactions / Theoretical / Topology

2015

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Spatial variation of a giant spin–orbit effect induces electron confinement in graphene on Pb islands

2015

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Spatial variation of a giant spin–orbit effect induces electron confinement in graphene on Pb islands

2015

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Journal Article

Spatial variation of a giant spin–orbit effect induces electron confinement in graphene on Pb islands

Barja, Sara,

Calleja, Fabian,

Miranda, Rodolfo,

Ochoa, Héctor,

Navarro, Juan Jesús,

Garnica, Manuela,

Otrokov, Mikhail M.,

Arnau, Andrés,

Chulkov, Evgueni V.,

Black, Andrés,

Vázquez de Parga, Amadeo L.,

Guinea, Francisco

2015

Overview

Graphene’s electronic properties can be modified by putting it on a substrate. Now it is shown that intercalating a graphene sheet and an iridium substrate with lead islands causes resonances, attributed to a spatial variation of spin–orbit coupling. The electronic band structure of a material can acquire interesting topological properties in the presence of a magnetic field or as a result of the spin–orbit coupling 1 , 2 , 3 . We study graphene on Ir, with Pb monolayer islands intercalated between the graphene sheet and the Ir surface. Although the graphene layer is structurally unaffected by the presence of the Pb islands, its electronic properties change markedly, with regularly spaced resonances appearing. We interpret these resonances as the effect of a strong and spatially modulated spin–orbit coupling, induced in graphene by the Pb monolayer. As well as confined electronic states, the electronic spectrum has a series of gaps with non-trivial topological properties, resembling a realization of the quantum spin Hall effect proposed by Bernevig and Zhang 4 .

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Publisher

Nature Publishing Group UK,Nature Publishing Group

Subject

639/301/357/918/1052

/ 639/766/119/544

/ 639/766/119/995

/ Atomic

/ Band structure of solids

/ Classical and Continuum Physics

/ Complex Systems