Litcius/Paper detail

Characterization and Manipulation of Intervalley Scattering Induced by an Individual Monovacancy in Graphene

Yu Zhang, Fei Gao, Shiwu Gao, Mads Brandbyge, Lin He

2022Physical Review Letters16 citationsDOIOpen Access PDF

Abstract

Intervalley scattering involves microscopic processes that electrons are scattered by atomic-scale defects on the nanoscale. Although central to our understanding of electronic properties of materials, direct characterization and manipulation of range and strength of the intervalley scattering induced by an individual atomic defect have so far been elusive. Using scanning tunneling microscope, we visualize and control intervalley scattering from an individual monovacancy in graphene. By directly imaging the affected range of monovacancy-induced intervalley scattering, we demonstrate that it is inversely proportional to the energy; i.e., it is proportional to the wavelength of massless Dirac fermions. A giant electron-hole asymmetry of the intervalley scattering is observed because the monovacancy is charged. By further charging the monovacancy, the bended electronic potential around the monovacancy softens the scattering potential, which, consequently, suppresses the intervalley scattering of the monovacancy.

Topics & Concepts

ScatteringCondensed matter physicsPhysicsGrapheneElectronDirac fermionOpticsQuantum mechanicsGraphene research and applicationsSurface and Thin Film PhenomenaQuantum and electron transport phenomena