From extensive computer simulations of variable-range hopping (VRH) transport of charges on regular two- and three-dimensional lattices with random site energies we calculate the average contribution to the total current of hops over a certain distance and with a certain hop energy. We find that the resulting current distribution is a universal function of scaled distance and energy variables. We discuss this scaling in the light of the original arguments of Mott and percolation arguments to explain the temperature dependence of the VRH conductivit
The temperature and electric field dependence of the conductivity in the quantum Hall effect (QHE) p...
For a system of localised electron states the DC conductivity vanishes at zero temperature, but loca...
Theory of hopping conductivity on spherical metal grains below the percolation threshold in a dielec...
From extensive computer simulations of variable-range hopping (VRH) transport of charges on regular ...
We have used the master equation to simulate variable-range hopping (VRH) of charges in a strongly d...
An important class of models for variable-range hopping (VRH) transport processes of electrons in hi...
A scaling theory has been developed for hopping transport in disordered systems. It provides an alte...
Abstract. We have studied the AC response of a hopping model in the variable range hopping regime by...
The variable range hopping theory has been widely used these last years to explain the electric cond...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
A semi-phenomenological theory of variable-range hopping (VRH) is developed for two-dimensional (2D)...
The normal state resistivity of the Y₁₂₃–Y₂₁₁ percolation system is best represented by a variable r...
Developing a renormalization group approach, we study the hopping conductivity of nanocrystalline c...
We present an averaging procedure for the calculation of the Hall mobility for spatial and energetic...
The temperature and electric field dependence of the conductivity in the quantum Hall effect (QHE) p...
For a system of localised electron states the DC conductivity vanishes at zero temperature, but loca...
Theory of hopping conductivity on spherical metal grains below the percolation threshold in a dielec...
From extensive computer simulations of variable-range hopping (VRH) transport of charges on regular ...
We have used the master equation to simulate variable-range hopping (VRH) of charges in a strongly d...
An important class of models for variable-range hopping (VRH) transport processes of electrons in hi...
A scaling theory has been developed for hopping transport in disordered systems. It provides an alte...
Abstract. We have studied the AC response of a hopping model in the variable range hopping regime by...
The variable range hopping theory has been widely used these last years to explain the electric cond...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
A semi-phenomenological theory of variable-range hopping (VRH) is developed for two-dimensional (2D)...
The normal state resistivity of the Y₁₂₃–Y₂₁₁ percolation system is best represented by a variable r...
Developing a renormalization group approach, we study the hopping conductivity of nanocrystalline c...
We present an averaging procedure for the calculation of the Hall mobility for spatial and energetic...
The temperature and electric field dependence of the conductivity in the quantum Hall effect (QHE) p...
For a system of localised electron states the DC conductivity vanishes at zero temperature, but loca...
Theory of hopping conductivity on spherical metal grains below the percolation threshold in a dielec...