Add to ORKGNanoelectronics is a fast developing ¯eld. Therefore understanding of the electronic transport at the nanoscale is currently of great interest. This thesis "Electronic transport through nanowires: a real-space ¯nite-difference approach" aims at a general theoretical treatment of coherent electronic transport in mesoscopic and mi-\ud croscopic systems by means of Green's function and mode-matching techniques. A general method has been developed for conductance calculations on the basis of the mode-matching technique within the real-space high-order ¯nite-difference scheme for representing a single electron equation. Testing of this real-space ¯nite-di®erence\ud approach for model systems has been done. This approach in combination with the d...
The methods presented in this thesis were developed to study the electron propagation in nanostruct...
The methods presented in this thesis were developed to study the electron propagation in nanostruct...
In present work, we study the electronic transport properties of copper nanowire using the non-equil...
Recent developments in semiconductor physics have led to a new field of study, namely the study of n...
We study the stability of conductance oscillations in monatomic sodium wires with respect to structu...
We present a general method for calculating coherent electronic transport in quantum wires and tunne...
THESIS 8084The problem of electronic transport in systems comprising only a handful of atoms is one ...
Multiple longitudinal potential barriers affect electron transport in a nanostructure. In addition t...
The development of electronics has been growing at a fast rate in recent years. More and more ideas ...
Nanometer-scale electronic devices are building blocks of future electronics. The function of these ...
In this thesis, a combination of density functional theory (DFT) based calculations and nonequilibri...
The aim of this thesis in the nanoelectronics domain is to present a contribution to the analysis of...
The aim of this thesis in the nanoelectronics domain is to present a contribution to the analysis of...
We present a plane-wave/pseudopotential implementation of a method to calculate the electron transpo...
The electronic transport properties in low dimensional systems have several important features which...
The methods presented in this thesis were developed to study the electron propagation in nanostruct...
The methods presented in this thesis were developed to study the electron propagation in nanostruct...
In present work, we study the electronic transport properties of copper nanowire using the non-equil...
Recent developments in semiconductor physics have led to a new field of study, namely the study of n...
We study the stability of conductance oscillations in monatomic sodium wires with respect to structu...
We present a general method for calculating coherent electronic transport in quantum wires and tunne...
THESIS 8084The problem of electronic transport in systems comprising only a handful of atoms is one ...
Multiple longitudinal potential barriers affect electron transport in a nanostructure. In addition t...
The development of electronics has been growing at a fast rate in recent years. More and more ideas ...
Nanometer-scale electronic devices are building blocks of future electronics. The function of these ...
In this thesis, a combination of density functional theory (DFT) based calculations and nonequilibri...
The aim of this thesis in the nanoelectronics domain is to present a contribution to the analysis of...
The aim of this thesis in the nanoelectronics domain is to present a contribution to the analysis of...
We present a plane-wave/pseudopotential implementation of a method to calculate the electron transpo...
The electronic transport properties in low dimensional systems have several important features which...
The methods presented in this thesis were developed to study the electron propagation in nanostruct...
The methods presented in this thesis were developed to study the electron propagation in nanostruct...
In present work, we study the electronic transport properties of copper nanowire using the non-equil...