Mapping Dirac Quasiparticles near a Single Coulomb Impurity on Graphene

Yang Wang; Victor Brar; Andrey Shytov; Qiong Wu; Willian Regan; Hsin-zon Tsai; Alex Zettl; Leonid Levitov; Michael Crommie

Mapping Dirac Quasiparticles near a Single Coulomb Impurity on Graphene

ORAL

Abstract

We have locally mapped the response of charge carriers to a single Coulomb potential placed on a gated graphene device. Scanning tunneling microscopy and spectroscopy were used to fabricate a tunable charge impurity and to measure how Dirac fermions screen it. By mapping spatial variation in the electronic structure of graphene we have directly probed the strength of screened electronic interactions, obtaining a value of epsilon = 3 for the intrinsic graphene dielectric constant. This small value suggests that microscopic electron-electron interactions contribute significantly to intrinsic graphene properties.

March 2, 2012, 8:00 AM – March 2, 2012, 8:12 AM

Authors

Yang Wang
- Physics Department, UC Berkeley and LBNL
Victor Brar
- Physics Department, UC Berkeley and LBNL
Andrey Shytov
- School of Physics, University of Exeter
Qiong Wu
- Physics Department, UC Berkeley and LBNL
Willian Regan
- Physics Department, UC Berkeley and LBNL
Hsin-zon Tsai
- Physics Department, UC Berkeley
Alex Zettl
- Physics Department, UC Berkeley and LBNL
Leonid Levitov
- Department of Physics, Massachusetts Institute of Technology
Michael Crommie
- Physics Department, UC Berkeley and LBNL