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Paper detail

Trapping Surface Electrons on Graphene Layers and Islands

We report the use of time- and angle-resolved two-photon photoemission to map the bound, unoccupied electronic structure of the weakly coupled graphene/Ir(111) system. The energy, dispersion, and lifetime of the lowest three image-potential states are measured. In addition, the weak interaction between Ir and graphene permits observation of resonant transitions from an unquenched Shockley-type surface state of the Ir substrate to graphene/Ir image-potential states. The image-potential-state lifetimes are comparable to those of mid-gap clean metal surfaces. Evidence of localization of the excited electrons on single-atom-layer graphene islands is provided by coverage-dependent measurements.

preprint2011arXivOpen access
D. NiesnerTh. FausterJ. I. DadapN. ZakiK. R. KnoxP. -C. YehR. BhandariR. M. OsgoodM. PetrovićM. Kralj
cond-mat.mes-hall
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D. NiesnerTh. FausterJ. I. DadapN. ZakiK. R. KnoxP. -C. YehR. BhandariR. M. OsgoodM. PetrovićM. Kralj

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