Effect of Phase-Breaking Events on Electron Transport in Single-Wall Nanotubes

Thushari Jayasekera; Pavan Pillalamarri; John W. Mintmire; Vincent Meunier

Effect of Phase-Breaking Events on Electron Transport in Single-Wall Nanotubes

ORAL

Abstract

Existing ballistic models for electron transport in single wall nanotube systems will break down as the size of the device becomes longer than the phase coherence length of electrons in the system. V. Krstic, \textit{et al.} observed experimentally that the current in a SWNT system can be regarded as a combination of a coherent part and a non-coherent part. We analyze this problem in detail following Buttiker's dephasing model. We investigate the effect of phase-breaking events on the electron transport in two-terminal single wall carbon nanotube systems, and discuss about more possible applications.

^*The work carried out at Oklahoma State University is supported by the Department of Energy (DE-FG02-07ER46362) and the work at ORNL is supported by the Division of Materials Sciences and Engineering U.S. Department of Energy ( DEAC05-00OR2272).

March 12, 2008, 10:51 AM – March 12, 2008, 11:03 AM

Authors

Thushari Jayasekera
- Department of Physics, Oklahoma State University, Stillwater, OK
Pavan Pillalamarri
- Department of Physics, Oklahoma State University, Stillwater, OK
John W. Mintmire
- Department of Physics, Oklahoma State University, Stillwater, OK
- Oklahoma State University
Vincent Meunier
- Oak Ridge National Laboratory, Oak Ridge, TN