Add to ORKGWe study weakly disordered quantum wires whose width is large compared to the Fermi wavelength. It is conjectured that such wires display universal metallic behavior as long as their length is shorter than the localization length (which increases with the width). The random matrix theory that accounts for this behavior—the DMPK theory—rests on assumptions that are in general not satisfied by realistic microscopic models. Starting from the Anderson model on a strip, we show that a twofold scaling limit nevertheless allows to recover rigorously the fundaments of DMPK theory, thus opening a way to settle some conjectures on universal metallic behavior
We study analytically the local density of states in a disordered normal-metal wire (N) at ballistic...
In this letter we study the conductance G through one-dimensional quantum wires with disorder config...
We report on the comprehensive numerical study of the fluctuation and correlation properties of wave...
We study weakly disordered quantum wires whose width is large compared to the Fermi wavelen...
We study weakly disordered quantum wires whose width is large compared to the Fermi wavelen...
ABSTRACT. We study the electronic transport properties of the Anderson model on a strip, modeling a ...
We study the electronic transport properties of the Anderson model on a strip, modeling a q...
We present results on the Anderson localization in a quasi one-dimensional metallic wire in the pres...
The spectral fluctuation of electrons in disordered systems are investigated using numerical calcula...
Transfer matrix spectra, which are directly related to the conductance g of a many channel elastic ...
Transfer matrix spectra, which are directly related to the conductance g of a many channel elastic ...
We study statistical properties of the eigenfunctions in the three-dimensional Anderson model of loc...
Arguments are presented that the T=0 conductance G of a disordered electronic system depends on its ...
The growing need for smaller electronic components has recently sparked the interest in the breakdow...
In a previous paper (Eur. Phys. J. B 30, 239–251 (2002)) we have presented the main features and pro...
We study analytically the local density of states in a disordered normal-metal wire (N) at ballistic...
In this letter we study the conductance G through one-dimensional quantum wires with disorder config...
We report on the comprehensive numerical study of the fluctuation and correlation properties of wave...
We study weakly disordered quantum wires whose width is large compared to the Fermi wavelen...
We study weakly disordered quantum wires whose width is large compared to the Fermi wavelen...
ABSTRACT. We study the electronic transport properties of the Anderson model on a strip, modeling a ...
We study the electronic transport properties of the Anderson model on a strip, modeling a q...
We present results on the Anderson localization in a quasi one-dimensional metallic wire in the pres...
The spectral fluctuation of electrons in disordered systems are investigated using numerical calcula...
Transfer matrix spectra, which are directly related to the conductance g of a many channel elastic ...
Transfer matrix spectra, which are directly related to the conductance g of a many channel elastic ...
We study statistical properties of the eigenfunctions in the three-dimensional Anderson model of loc...
Arguments are presented that the T=0 conductance G of a disordered electronic system depends on its ...
The growing need for smaller electronic components has recently sparked the interest in the breakdow...
In a previous paper (Eur. Phys. J. B 30, 239–251 (2002)) we have presented the main features and pro...
We study analytically the local density of states in a disordered normal-metal wire (N) at ballistic...
In this letter we study the conductance G through one-dimensional quantum wires with disorder config...
We report on the comprehensive numerical study of the fluctuation and correlation properties of wave...