Coulomb blockade in a single tunnel junction directly connected to a multiwalled carbon nanotube

30 October 2000

journal article
conference paper
Published by AIP Publishing in Applied Physics Letters

Vol. 77 (18) , 2891-2893
https://doi.org/10.1063/1.1312254

Abstract

We report on Coulomb blockade in a single tunnel junction directly connected to a multiwalled carbon nanotube (MWNT) by utilizing a nanoporous alumina film. The MWNT exhibits a weak localization effect with strong spin flip scattering. Experimental results and analysis suggest that a high-impedance external environment caused by the weak localization in the MWNT can yield Coulomb blockade, in accordance with phase correlation theory in a single junction system. It is also revealed that the Coulomb blockade is very sensitive to phase modulation in the MWNT, which also acts as a high-impedance transmission line.

Keywords

This publication has 13 references indexed in Scilit:

Circuit effect on the current-voltage characteristics of ultrasmall tunnel junctions
Physical Review B, 1999
Experiments on tunnelling in small normal-metal junctions influenced by dissipative environment: Critical comparison to the theories of quantum fluctuations
Europhysics Letters, 1998
Nonlithographic nanowire-array tunnel device: Fabrication, zero-bias anomalies, and Coulomb blockade
Physical Review B, 1998
How Is the Coulomb Blockade Suppressed in High-Conductance Tunnel Junctions?
Physical Review Letters, 1998
Charging ultrasmall tunnel junctions in an electromagnetic environment
Physical Review B, 1997
Individual single-wall carbon nanotubes as quantum wires
Nature, 1997
Effect of a Transmission Line Resonator on a Small Capacitance Tunnel Junction
Physical Review Letters, 1994
Effect of the electromagnetic environment on the Coulomb blockade in ultrasmall tunnel junctions
Physical Review Letters, 1990
Charge fluctuations in small-capacitance junctions
Physical Review Letters, 1990
Weak localization in pregraphitic carbon fibers
Physical Review B, 1989