We show that the conductance of a quantum wire side-coupled to a quantum dot, with a gate potential favoring the formation of a dot magnetic moment, is a universal function of the temperature. Universality prevails even if the currents through the dot and the wire interfere. We apply this result to the experimental data of Sato et al. (Phys. Rev. Lett., 95 (2005) 066801)
The Wiedemann–Franz law states that the charge conductance and the electronic contribution to the he...
A comparative study of the low temperature conductivity of an ensemble of multiwall carbon nanotube...
The single-impurity Anderson model has been the focus of theoretical studies of molecular junctions ...
We show that the conductance of a quantum wire side-coupled to a quantum dot, with a gate potential ...
We show that the conductance of a quantum wire side-coupled to a quantum dot, with a gate potential ...
We show that the conductance of a quantum wire side-coupled to a quantum dot, with a gate potential ...
A numerical renormalization-group study of the conductance through a quantum wire containing noninte...
A numerical renormalization-group study of the conductance through a quantum wire containing noninte...
We discuss the thermal dependence of the zero-bias electrical conductance for a quantum dot embedded...
Low-temperature transport properties of nanostructured semiconductor devices have been monitored in ...
Low-temperature transport properties of nanostructured semiconductor devices have been monitored in ...
We have studied quantum wires using the Green’s function technique within density-functional theory,...
A comparative study of the low temperature conductivity of an ensemble of multiwall carbon nanotube...
A comparative study of the low temperature conductivity of an ensemble of multiwall carbon nanotube...
A comparative study of the low temperature conductivity of an ensemble of multiwall carbon nanotube...
The Wiedemann–Franz law states that the charge conductance and the electronic contribution to the he...
A comparative study of the low temperature conductivity of an ensemble of multiwall carbon nanotube...
The single-impurity Anderson model has been the focus of theoretical studies of molecular junctions ...
We show that the conductance of a quantum wire side-coupled to a quantum dot, with a gate potential ...
We show that the conductance of a quantum wire side-coupled to a quantum dot, with a gate potential ...
We show that the conductance of a quantum wire side-coupled to a quantum dot, with a gate potential ...
A numerical renormalization-group study of the conductance through a quantum wire containing noninte...
A numerical renormalization-group study of the conductance through a quantum wire containing noninte...
We discuss the thermal dependence of the zero-bias electrical conductance for a quantum dot embedded...
Low-temperature transport properties of nanostructured semiconductor devices have been monitored in ...
Low-temperature transport properties of nanostructured semiconductor devices have been monitored in ...
We have studied quantum wires using the Green’s function technique within density-functional theory,...
A comparative study of the low temperature conductivity of an ensemble of multiwall carbon nanotube...
A comparative study of the low temperature conductivity of an ensemble of multiwall carbon nanotube...
A comparative study of the low temperature conductivity of an ensemble of multiwall carbon nanotube...
The Wiedemann–Franz law states that the charge conductance and the electronic contribution to the he...
A comparative study of the low temperature conductivity of an ensemble of multiwall carbon nanotube...
The single-impurity Anderson model has been the focus of theoretical studies of molecular junctions ...
DOI
Add to ORKG