Interactions and scaling in a disordered two-dimensional metal
- 1 July 1998
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 58 (2), R559-R562
- https://doi.org/10.1103/physrevb.58.r559
Abstract
We show that a non-Fermi-liquid state of interacting electrons in two dimensions is stable in the presence of disorder and is a perfect conductor, provided the interactions are sufficiently strong. Otherwise, the disorder leads to localization as in the case of noninteracting electrons. This conclusion is established by examining the replica field theory in the weak-disorder limit, but in the presence of arbitrary electron-electron interaction. Thus, a disordered two-dimensional metal is a perfect metal, but not a Fermi liquid.Keywords
All Related Versions
This publication has 12 references indexed in Scilit:
- Magnetic Field Suppression of the Conducting Phase in Two DimensionsPhysical Review Letters, 1997
- Metal-Insulator Transition in Two Dimensions: Effects of Disorder and Magnetic FieldPhysical Review Letters, 1997
- Scaling Theory of Two-Dimensional Metal-Insulator TransitionsPhysical Review Letters, 1997
- Instability of the two-dimensional metallic phase to a parallel magnetic fieldJETP Letters, 1997
- Electric Field Scaling at aMetal-Insulator Transition in Two DimensionsPhysical Review Letters, 1996
- SPECTRAL ANOMALY AND HIGH TEMPERATURE SUPERCONDUCTORSInternational Journal of Modern Physics B, 1996
- The Anderson-Mott transitionReviews of Modern Physics, 1994
- Renormalization-group approach to interacting fermionsReviews of Modern Physics, 1994
- Disordered electronic systemsReviews of Modern Physics, 1985
- Scaling Theory of Localization: Absence of Quantum Diffusion in Two DimensionsPhysical Review Letters, 1979