Add to ORKGEffects of correlation in weakly disordered systems on the density of electronic states (DOS) and the conductivity are examined in the framework of the mean field approach. As a result of the approximation, the electronic energy spectrum is changed from a free electron energy spectrum to a Hartree exchange term added energy spectrum form. Coulomb interaction is shown to give a correction to the DOS, which reduces the electronic states. Calculations of the conductivity show that, although Coulomb interaction evaluated by the mean field theory decreases the Drude conductivity, it acts as a dephasing factor for the quantum localization correction to the conductivity
This thesis describes attempts to study the effects of localization and electronic correlation in di...
Correlated Electron Materials are materials with novel electrical properties such as metal insulator...
We develop methods how to calculate charge transport in disordered systems applicable in all disorde...
Effects of correlation in weakly disordered systems on the density of electronic states (DOS) and th...
Mean-field theory for disordered systems of correlated electrons is constructed, where correlations ...
In this thesis dynamical mean-field methods in combination with a continuous-time quantum Monte Carl...
In this study we present results of electronic structure calculations for metals, based on density f...
We discuss the successes of the dynamical mean-field (DMF) approach to metalinsulator transitions in...
We present a dynamical mean-field theory (DMFT) study of strongly correlated heterostructures. In co...
We calculate electron-electron correlation effects in a one-dimensional electron liquid at low densi...
We numerically simulate the low-energy properties of interacting electrons in a random potential usi...
Strong electronic correlations and especially the interplay between correlations and disorder lead t...
The conductivity sigma(T) of a two-dimensional weakly disordered square lattice is studied at half-f...
Several new aspects of the subtle interplay between electronic correlations and disorder are reviewe...
We investigate the influence of electron-electron interactions on the conductance of two-dimensional...
This thesis describes attempts to study the effects of localization and electronic correlation in di...
Correlated Electron Materials are materials with novel electrical properties such as metal insulator...
We develop methods how to calculate charge transport in disordered systems applicable in all disorde...
Effects of correlation in weakly disordered systems on the density of electronic states (DOS) and th...
Mean-field theory for disordered systems of correlated electrons is constructed, where correlations ...
In this thesis dynamical mean-field methods in combination with a continuous-time quantum Monte Carl...
In this study we present results of electronic structure calculations for metals, based on density f...
We discuss the successes of the dynamical mean-field (DMF) approach to metalinsulator transitions in...
We present a dynamical mean-field theory (DMFT) study of strongly correlated heterostructures. In co...
We calculate electron-electron correlation effects in a one-dimensional electron liquid at low densi...
We numerically simulate the low-energy properties of interacting electrons in a random potential usi...
Strong electronic correlations and especially the interplay between correlations and disorder lead t...
The conductivity sigma(T) of a two-dimensional weakly disordered square lattice is studied at half-f...
Several new aspects of the subtle interplay between electronic correlations and disorder are reviewe...
We investigate the influence of electron-electron interactions on the conductance of two-dimensional...
This thesis describes attempts to study the effects of localization and electronic correlation in di...
Correlated Electron Materials are materials with novel electrical properties such as metal insulator...
We develop methods how to calculate charge transport in disordered systems applicable in all disorde...