Quantum Hall Effect in Two-Terminal Graphene Devices.

James Williams; Dmitry Abanin; Leonardo DiCarlo; Leonid Levitov; Charles Marcus

Quantum Hall Effect in Two-Terminal Graphene Devices.

ORAL

Abstract

We report on transport measurements in the quantum Hall regime of two-terminal single and bilayer graphene devices. The mixture of the longitudinal and transverse conductivities in the two-terminal geometry results in departures from the expected conductance values on the Hall plateaus and are found to be device-geometry dependent. The experimental results are compared to theory and discrepancies are discussed. Research supported in part by INDEX, an NRI Center, and by the Harvard NSEC.

March 19, 2009, 5:18 PM – March 19, 2009, 5:30 PM

Authors

James Williams

Harvard University
Dmitry Abanin

Massachusetts Institute of Technology, Princeton University
Leonardo DiCarlo

Harvard University
Leonid Levitov

Massachusetts Institute of Technology, MIT
Charles Marcus

Harvard University, Department of Physics, Harvard University, MA