Add to ORKGA discussion is given of a technique to simulate the quantum mechanical motion of electrons in nano-scale devices. The results of the simulation are used to produce digital video's, facilitating the interpretation of the quantum mechanical phenomena. The power and flexibility of the simulation method is illustrated by some examples of electron emission from nano-meter scale sources.</p
This paper reviews the general concepts for building algorithms to solve the time-dependent Schrödin...
This paper reviews the general concepts for building algorithms to solve the time-dependent Schrödin...
55 years after Richard Feynman’s famous Caltech lecture ‘There is plenty of room at the bottom’ [1],...
A discussion is given of a technique to simulate the quantum mechanical motion of electrons in nano-...
A discussion is given of a technique to simulate the quantum mechanical motion of electrons in nano-...
A discussion is given of a technique to simulate the quantum mechanical motion of electrons in nano-...
A discussion is given of a technique to simulate the quantum mechanical motion of electrons in nano-...
A discussion is given of a technique to simulate the quantum mechanical motion of electrons in nano-...
This paper reviews the general concepts for building algorithms to solve the time-dependent Schrödin...
This paper reviews the general concepts for building algorithms to solve the time-dependent Schrödin...
This paper reviews the general concepts for building algorithms to solve the time-dependent Schrödin...
This paper reviews the general concepts for building algorithms to solve the time-dependent Schrödin...
The purpose of this lecture is to introduce the general concepts for building algorithms to solve th...
The purpose of this lecture is to introduce the general concepts for building algorithms to solve th...
The purpose of this lecture is to introduce the general concepts for building algorithms to solve th...
This paper reviews the general concepts for building algorithms to solve the time-dependent Schrödin...
This paper reviews the general concepts for building algorithms to solve the time-dependent Schrödin...
55 years after Richard Feynman’s famous Caltech lecture ‘There is plenty of room at the bottom’ [1],...
A discussion is given of a technique to simulate the quantum mechanical motion of electrons in nano-...
A discussion is given of a technique to simulate the quantum mechanical motion of electrons in nano-...
A discussion is given of a technique to simulate the quantum mechanical motion of electrons in nano-...
A discussion is given of a technique to simulate the quantum mechanical motion of electrons in nano-...
A discussion is given of a technique to simulate the quantum mechanical motion of electrons in nano-...
This paper reviews the general concepts for building algorithms to solve the time-dependent Schrödin...
This paper reviews the general concepts for building algorithms to solve the time-dependent Schrödin...
This paper reviews the general concepts for building algorithms to solve the time-dependent Schrödin...
This paper reviews the general concepts for building algorithms to solve the time-dependent Schrödin...
The purpose of this lecture is to introduce the general concepts for building algorithms to solve th...
The purpose of this lecture is to introduce the general concepts for building algorithms to solve th...
The purpose of this lecture is to introduce the general concepts for building algorithms to solve th...
This paper reviews the general concepts for building algorithms to solve the time-dependent Schrödin...
This paper reviews the general concepts for building algorithms to solve the time-dependent Schrödin...
55 years after Richard Feynman’s famous Caltech lecture ‘There is plenty of room at the bottom’ [1],...