Add to ORKGThe electrostatics has effect on conductance of nanowire devices. In this model electrostatics are described by nonlinear coupling of the Poisson and the Schr¨odinger equations. In presence of magnetic and electric field and spin-orbit interaction, conductance develops a feature called the helical gap. This gap is characterised by a drop of conductance and is the main focus of the research. The solver is based around an Anderson mixing scheme, and specific class of points has been discovered for which the solver performs poorly. For those points, an temperature annealing subroutine has been put in place to speed up convergence. This subroutine efficiently solves the system for some small finite temperature. The solver has also been expanded...
In this Letter we analyze the general features of quantum transport in a ferromagnetic nanowire base...
The development of electronics has been growing at a fast rate in recent years. More and more ideas ...
In the past two decades, significant progress in constructing physical systems of reduced dimension...
Theoretical studies of electrical conductance of various nanowires are performed within the framewor...
We consider electronic transport through semiconducting nanowires (W) with spin-orbit interaction (S...
ii As the dimensions of commonly used semiconductor devices have shrunk into nanometer regime, it is...
We use the nonequilibrium Green's function formalism and a self-consistent Hartree-Fock approximatio...
We report the conductance calculation of metallic nanowires of different metals under the applicatio...
We study numerically the effects of edge and bulk disorder on the conductance of graphene nanoribbon...
We compute the electric conductivity of nanowires in the presence of magnetic domain walls by the me...
We investigate magnetotransport through graphene nanoribbons as a function of gate and bias voltage,...
Combining the non-equilibrium Green's function method and density functional theory, we provide...
We have studied quantum wires using the Green’s function technique within density-functional theory,...
The conductance distribution obtained from an ensemble of stretching ferromagnetic nanowires or poin...
Nanoelectronics is a fast developing ¯eld. Therefore understanding of the electronic transport at th...
In this Letter we analyze the general features of quantum transport in a ferromagnetic nanowire base...
The development of electronics has been growing at a fast rate in recent years. More and more ideas ...
In the past two decades, significant progress in constructing physical systems of reduced dimension...
Theoretical studies of electrical conductance of various nanowires are performed within the framewor...
We consider electronic transport through semiconducting nanowires (W) with spin-orbit interaction (S...
ii As the dimensions of commonly used semiconductor devices have shrunk into nanometer regime, it is...
We use the nonequilibrium Green's function formalism and a self-consistent Hartree-Fock approximatio...
We report the conductance calculation of metallic nanowires of different metals under the applicatio...
We study numerically the effects of edge and bulk disorder on the conductance of graphene nanoribbon...
We compute the electric conductivity of nanowires in the presence of magnetic domain walls by the me...
We investigate magnetotransport through graphene nanoribbons as a function of gate and bias voltage,...
Combining the non-equilibrium Green's function method and density functional theory, we provide...
We have studied quantum wires using the Green’s function technique within density-functional theory,...
The conductance distribution obtained from an ensemble of stretching ferromagnetic nanowires or poin...
Nanoelectronics is a fast developing ¯eld. Therefore understanding of the electronic transport at th...
In this Letter we analyze the general features of quantum transport in a ferromagnetic nanowire base...
The development of electronics has been growing at a fast rate in recent years. More and more ideas ...
In the past two decades, significant progress in constructing physical systems of reduced dimension...