General quantum-mechanical description of electronic transport in thin-film structures, which is based on the Kubo approach, is presented and applied to a single film with ideal surfaces. The cases of a constant chemical potential and a constant particle number are considered and analysed numerically
We discuss atomistic approaches to quantum transport within the semi-empirical tight-binding framewo...
This book is an introduction to a rapidly developing field of modern theoretical physics – the theor...
A thorough account of the theory of electronic transport in semiconductor nanostructures
Using the quantum-statistical approach, we have developed a unified transport theory of metallic fil...
As the size of modern electronic and optoelectronic devices is scaling down at a steady pace, atomis...
We constructed the most general theory of the classical and quantum static electron transport for 3D...
This tutorial outlines the basic theoretical concepts and tools which underpin the fundamentals of p...
Difficulties connected to solving difference equations of hyperbolic type were analyzed in this work...
Thin metal films have been studied for decades and are widely employed in a myriad of applications. ...
We use the coherent potential approximation to study the effect of surface roughness on the electron...
International audienceDepending on the minimum size of their micro/nanostructure, thin films can exh...
Reiss G, Brückl H. Electronic transport in metallic films: a tool for scanning tunneling microscopy ...
The enormous interest in industrial application of semiconductor components has led to the developme...
This thesis deals with electrical conductivity in thin films. Classical and quantum size effects in ...
Exact and general results on the electronic states in quantum films bounded at tau(3)a(3) and (tau(3...
We discuss atomistic approaches to quantum transport within the semi-empirical tight-binding framewo...
This book is an introduction to a rapidly developing field of modern theoretical physics – the theor...
A thorough account of the theory of electronic transport in semiconductor nanostructures
Using the quantum-statistical approach, we have developed a unified transport theory of metallic fil...
As the size of modern electronic and optoelectronic devices is scaling down at a steady pace, atomis...
We constructed the most general theory of the classical and quantum static electron transport for 3D...
This tutorial outlines the basic theoretical concepts and tools which underpin the fundamentals of p...
Difficulties connected to solving difference equations of hyperbolic type were analyzed in this work...
Thin metal films have been studied for decades and are widely employed in a myriad of applications. ...
We use the coherent potential approximation to study the effect of surface roughness on the electron...
International audienceDepending on the minimum size of their micro/nanostructure, thin films can exh...
Reiss G, Brückl H. Electronic transport in metallic films: a tool for scanning tunneling microscopy ...
The enormous interest in industrial application of semiconductor components has led to the developme...
This thesis deals with electrical conductivity in thin films. Classical and quantum size effects in ...
Exact and general results on the electronic states in quantum films bounded at tau(3)a(3) and (tau(3...
We discuss atomistic approaches to quantum transport within the semi-empirical tight-binding framewo...
This book is an introduction to a rapidly developing field of modern theoretical physics – the theor...
A thorough account of the theory of electronic transport in semiconductor nanostructures
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