In-Situ Thermal Mapping of Graphene via TEM Measurement of the Debye-Waller Factor

William A. Hubbard; Matthew Mecklenburg; B.C. Regan

In-Situ Thermal Mapping of Graphene via TEM Measurement of the Debye-Waller Factor

ORAL

Abstract

Thermal motion of the constituent atoms attenuates high-order peaks in a crystal's electron diffraction pattern. Using TEM we measure this attenuation, parameterized by a Debye-Waller factor, in single-layer cleaved graphene that is Joule-heated \emph{in situ}. We find that the Debye-Waller factor, as probed with selected area electron diffraction, provides a reliable measure of the local temperature and thus allows for quantitative thermal mapping on the nanoscale.

^*Supported by NSF DMR-1206849

March 19, 2013, 5:18 PM – March 19, 2013, 5:30 PM

Authors

William A. Hubbard
- UCLA Department of Physics and Astronomy
- UCLA Department of Physics and Astronomy \& CNSI
Matthew Mecklenburg
- UCLA Department of Physics and Astronomy
- UCLA Department of Physics and Astronomy \& CNSI
B.C. Regan
- UCLA Department of Physics and Astronomy
- UCLA Department of Physics and Astronomy \& CNSI