Published in Phys. Rev. B 87, 245414 (2013).

Low-Energy Electron Reflectivity of Graphene on Copper and other Substrates

N. Srivastava,1 Qin Gao,1 M. Widom,1, R. M. Feenstra,1 Shu Nie,2 K. F. McCarty,2 and I. V. Vlassiouk3
1Department of Physics, Carnegie Mellon University, Pittsburgh, Pennsylvania 15213
2Sandia National Laboratories, Livermore, CA 94550
3Oak Ridge National Laboratory, P.O. Box 2008, Oak Ridge, Tennessee 37831

Abstract

The reflectivity of low energy electrons from graphene on copper substrates is studied both experimentally and theoretically. Well-known oscillations in the reflectivity of electrons with energies 0 – 8 eV above the vacuum level are observed in the experiment. These oscillations are reproduced in theory, based on a first-principles density functional description of interlayer states forming for various thicknesses of multilayer graphene. It is demonstrated that n layers of graphene produce a regular series of n-1 minima in the reflectance spectra, together with a possible additional minimum associated with an interlayer state forming between the graphene and the substrate. Both (111) and (001) orientations of the copper substrates are studied. Similarities in their reflectivity spectra arise from the interlayer states, whereas differences are found because of the different Cu band structures along those orientations. Results for graphene on other substrates, including Pt(111) and Ir(111), are also discussed.

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