1:30 PM–3:18 PM, Thursday, May 19, 2005
Burnham Yates Conference Center - Hawthorne
Chair: Jin Wang, University of Nebraska
2:54 PM–3:06 PM
Mikhail Zamkov
Nathan Woody
Bing Shan
Zenghu Chang
Patrick Richard
(James R. Macdonald Laboratory, Department of Physics, Kansas State University, Manhattan, KS 66506-2604)
Despite the structural similarity between the single and multi walled nanotubes (SWNTs and MWNTs), the nature of electron transport in these systems was found to be fundamentally different. In contrast to a SWNT, where conduction electrons are constrained to interact in a strictly one--dimensional manner (Luttinger-liquid system), electron excitations in a MWNT exhibit a distinct multi--dimensional Fermi--liquid behavior. The latter was demonstrated experimentally by comparing the femtosecond decay dynamics of electrons excited into different conduction bands of a MWNT, consisting, on average, of 15 coaxial SWNT shells. The observed temporal evolution provides strong evidence that long--range e--e interaction along the tube vanishes due to screening, indicating that multi-- dimensional nature of charge propagation should be invoked in modeling electronic properties of MWNTs. This work was supported by Chemical Sciences, Geo--sciences and Biosciences Division, Office of Basic Energy Sciences, Office of Science, U. S. Department of Energy.