Far infrared spectroscopy of graphene

Jason Horng; Chi-Fan Chen; Baisong Geng; Yuanbo Zhang; Caglar Girit; Zhao Hao; Hans Bechtel; Alex Zettl; Michael Crommie; Feng Wang

Far infrared spectroscopy of graphene

ORAL

Abstract

The electronic properties of graphene are described by massless Dirac electrons, and their DC conductivity and Hall conductivity have attracted great attention. However, the high frequency conductivity (AC conductivity) of graphene is little known. Here we perform far-infrared spectroscopy on large area graphene sample to probe its AC conductivity response. The response can be largely described by the Drude model, which yields direct information on the electron density and scattering rate in the graphene samples. We will discuss the comparison of our experimental results to theoretical predictions.

March 19, 2010, 11:51 AM – March 19, 2010, 12:03 PM

Authors

Jason Horng
- Dept of Physics, University of California at Berkeley
Chi-Fan Chen
- Dept of Physics, University of California at Berkeley
Baisong Geng
- Dept of Physics, University of California at Berkeley
Yuanbo Zhang
- Dept of Physics, University of California at Berkeley
Caglar Girit
- Dept of Physics, University of California at Berkeley
Zhao Hao
- Advanced Light Source Division, Lawrence Berkeley National Laboratory
Hans Bechtel
- Advanced Light Source Division, Lawrence Berkeley National Laboratory
Alex Zettl
- Dept of Physics, University of California at Berkeley
Michael Crommie
- Dept of Physics, University of California at Berkeley
Feng Wang
- Dept of Physics, University of California at Berkeley