Metallic microwave dielectric response of polyacetylene
- 15 September 1995
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 52 (11) , 8060-8063
- https://doi.org/10.1103/physrevb.52.8060
Abstract
Using the dielectric constant and conductivity at microwave frequency, we study the differences between highly conducting polyacetylenes and standard metals. We report that the microwave dielectric constant at room temperature for heavily iodine-doped Tsukamoto polyacetylene films is negative and of record size. This demonstrates that the highly conducting state is metallic despite the decrease in conductivity with decreasing temperature. The anomalously long transport time is attributed to suppression of both phonon and impurity backward scattering in a structure with an open Fermi surface. We analyze the temperature-dependent data using a model of three-dimensional metallic fiber segments coupled by weak links within which one-dimensional localization effects occur.Keywords
This publication has 24 references indexed in Scilit:
- Inhomogeneous disorder and the modified Drude metallic state of conducting polymersSynthetic Metals, 1994
- Low-temperature magnetoresistance of heavily FeCl3-doped polyacetylene: Hopping conduction among localized states with Coulomb correlationSolid State Communications, 1994
- Temperature dependence of the electrical conductivity of potassium-doped polyacetylene as a function of pressure and magnetic fieldPhysical Review B, 1993
- Recent advances in highly conductive polyacetyleneAdvances in Physics, 1992
- Logarithmic temperature dependence of resistivity in heavily doped conducting polymers at low temperaturePhysical Review Letters, 1992
- Structure and morphology: relation to thermopower properties of conductive polymersSynthetic Metals, 1991
- Structure and Electrical Properties of Polyacetylene Yielding a Conductivity of 105 S/cmJapanese Journal of Applied Physics, 1990
- Magnetic susceptibility of iodine doped polyacetylene: The effects of nonuniform dopingSolid State Communications, 1981
- Electrical transport in doped polyacetyleneThe Journal of Chemical Physics, 1980
- Electrical Conductivity in Doped PolyacetylenePhysical Review Letters, 1977