2 6 O ct 1 99 8 A few electrons per ion scenario for the B = 0 metal - insulator transition in two dimensions
نویسندگان
چکیده
A few electrons per ion scenario for the B = 0 metal-insulator transition in two dimensions Abstract We argue on the basis of experimental numbers that the B = 0 metal-insulator transition in two dimensions, observed in Si-MOSFETs and in other two-dimensional systems, is likely to be due to a few strongly interacting electrons, which also interact strongly with the random positively ionized impurities. At the insulating side the electrons are all bound in pairs to the ions. On the metallic side free electrons exist which are scattered by ions dressed with electron-pairs and therefore alter the bare scattering potential 1 of the ions. The physics at the metallic side of the transition is argued to be controlled by the classical to quantum transport cross-over leading to the observed non-monotonous dependence of the resistivity on temperature. This few electrons per ion scenario appears to be an experimentally realistic and testable scenario, which can also serve as a starting point for further theoretical analysis of the two-dimensional metal-insulator transition.
منابع مشابه
0 M ay 1 99 8 Metal - Insulator Transition of Disordered Interacting Electrons
We calculate the corrections to the conductivity and compressibility of a disordered metal when the mean free path is smaller than the screening length. Such a condition is shown to be realized for low densities and large disorder. Analysis of the stability of the metallic state reveals a transition to the insulating state in two-dimensions.
متن کاملInteracting lattice electrons with disorder in two dimensions: Numerical evidence for a metal-insulator transition with a universal critical conductivity
The Coulomb interaction between the electrons and the presence of disorder both strongly affect the properties of solids.1–5 Namely, electronic correlations and randomness are separate driving forces behind metal-insulator transitions (MITs) due to the localization and delocalization of particles. While the electronic repulsion may lead to a Mott-Hubbard MIT,6 the scattering of noninteracting p...
متن کاملSlave particles made real : Critical Fermi surface at a Mott transition in Bose - Fermi mixtures
The Mott metal–insulator transition of fermions is a long-standing open problem in the theory of correlated electrons. While important conceptual ideas were developed in the early works of Mott, Hubbard, Gutzwiller, Brinkman/Rice, and others, a reliable solution of a relevant microscopic model is difficult because of the strong-coupling nature of the problem. For the single-band Hubbard model, ...
متن کاملar X iv : c on d - m at / 9 50 70 70 v 1 1 8 Ju l 1 99 5 Electron - phonon coupling close to a metal - insulator transition in one dimension
We consider a one-dimensional system of electrons interacting via a short-range repulsion and coupled to phonons close to the metal-insulator transition at half filling. We argue that the metal-insulator transition can be described as a standard one dimensional incommensurate to commensurate transition, even if the electronic system is coupled to the lattice distortion. By making use of known r...
متن کاملCharge Friedel oscillations in a Mott insulator
Article is made available in accordance with the publisher's policy and may be subject to US copyright law. Please refer to the publisher's site for terms of use. The MIT Faculty has made this article openly available. Please share how this access benefits you. Your story matters. When a metal undergoes a transition to an insulator it will lose its electronic Fermi surface. Interestingly, in so...
متن کامل