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Inducing Single Spin‐Polarized Flat Bands in Monolayer Graphene

Matteo Jugovac, Iulia Cojocariu, J. Sánchez‐Barriga, Pierluigi Gargiani, Manuel Valvidares, Vitaliy Feyer, Stefan Blügel, Gustav Bihlmayer, Paolo Perna

2023Advanced Materials27 citationsDOIOpen Access PDF

Abstract

Abstract Due to the fundamental and technological implications in driving the appearance of non‐trivial, exotic topological spin textures and emerging symmetry‐broken phases, flat electronic bands in 2D materials, including graphene, are nowadays a relevant topic in the field of spintronics. Here, via europium doping, single spin‐polarized bands are generated in monolayer graphene supported by the Co(0001) surface. The doping is controlled by Eu positioning, allowing for the formation of a ‐valley localized single spin‐polarized low‐dispersive parabolic band close to the Fermi energy when Eu is on top, and of a π * flat band with single spin character when Eu is intercalated underneath graphene. In the latter case, Eu also induces a bandgap opening at the Dirac point while the Eu 4f states act as a spin filter, splitting the π band into two spin‐polarized branches. The generation of flat bands with single spin character, as revealed by the spin‐ and angle‐resolved photoemission spectroscopy (ARPES) experiments, complemented by density functional theory (DFT) calculations, opens up new pathways toward the realization of spintronic devices exploiting such novel exotic electronic and magnetic states.

Topics & Concepts

SpintronicsGrapheneCondensed matter physicsMaterials scienceSpin (aerodynamics)Fermi levelAngle-resolved photoemission spectroscopySpin polarizationDirac (video compression format)Band gapFerromagnetismFermi energyDensity functional theoryElectronic structureNanotechnologyPhysicsQuantum mechanicsElectronNeutrinoThermodynamicsGraphene research and applicationsTopological Materials and Phenomena2D Materials and Applications