Litcius/Paper detail

Overdoping Graphene Beyond the van Hove Singularity

Philipp Rosenzweig, Hrag Karakachian, D. Marchenko, Kathrin Küster, Ulrich Starke

2020Physical Review Letters141 citationsDOIOpen Access PDF

Abstract

At very high doping levels the van Hove singularity in the π^{*} band of graphene becomes occupied and exotic ground states possibly emerge, driven by many-body interactions. Employing a combination of ytterbium intercalation and potassium adsorption, we n dope epitaxial graphene on silicon carbide past the π^{*} van Hove singularity, up to a charge carrier density of 5.5×10^{14} cm^{-2}. This regime marks the unambiguous completion of a Lifshitz transition in which the Fermi surface topology has evolved from two electron pockets into a giant hole pocket. Angle-resolved photoelectron spectroscopy confirms these changes to be driven by electronic structure renormalizations rather than a rigid band shift. Our results open up the previously unreachable beyond-van-Hove regime in the phase diagram of epitaxial graphene, thereby accessing an unexplored landscape of potential exotic phases in this prototype two-dimensional material.

Topics & Concepts

Van Hove singularityCondensed matter physicsGraphenePhysicsDensity of statesMaterials scienceFermi levelElectronQuantum mechanicsGraphene research and applicationsQuantum and electron transport phenomenaSurface and Thin Film Phenomena