The impressive progress in the fabrication of low-dimensional semiconductor structures during the past two decades has made it possible to reduce the effective device dimension from three-dimensional bulk materials, to quasi-two dimensional quantum well systems, to quasi-one dimensional quantum wires, and even to quasi-zero dimensional quantum dots. In this article we discussed about wave function in these structures
Dimensionality is an important factor to govern the electronic structures of semiconductor nanocryst...
This paper discusses the growth and the properties of semiconductor nanostructures based on self-ass...
We describe some of the physics peculiar to electron transport in quasi-one-dimensional systems in s...
The impressive progress in the fabrication of low-dimensional semiconductor structures duri...
Presenting the latest advances in artificial structures, this volume discusses in-depth the structur...
Starting with the first transistor in 1949, the world has experienced a technological revolution whi...
We present the theoretical basis of wavefunction engineering. We show that a Lagrangian formulation ...
An efficient method for the low-dimensional semiconductor structure is investigated. The method is a...
We study the energy spectra of small three-dimensional (3D) and two-dimensional (2D) semiconductor q...
The notion of low dimensionality becomes more than a pure mathematical ideal, as scaling of modern e...
We investigate theoretically the Zeeman effect on the lowest confined electron in quantum wires and ...
In a series of recent papers we demonstrated that coupled electro-mechanical effects can lead to pro...
There is currently great interest in fabrication of structures that are two and three dimensional an...
We propose correlated yet extremely simple single-parameter-dependent wave-function with a Slater-ty...
Nonlinear mathematical models are becoming increasingly important for new applications of low-dimens...
Dimensionality is an important factor to govern the electronic structures of semiconductor nanocryst...
This paper discusses the growth and the properties of semiconductor nanostructures based on self-ass...
We describe some of the physics peculiar to electron transport in quasi-one-dimensional systems in s...
The impressive progress in the fabrication of low-dimensional semiconductor structures duri...
Presenting the latest advances in artificial structures, this volume discusses in-depth the structur...
Starting with the first transistor in 1949, the world has experienced a technological revolution whi...
We present the theoretical basis of wavefunction engineering. We show that a Lagrangian formulation ...
An efficient method for the low-dimensional semiconductor structure is investigated. The method is a...
We study the energy spectra of small three-dimensional (3D) and two-dimensional (2D) semiconductor q...
The notion of low dimensionality becomes more than a pure mathematical ideal, as scaling of modern e...
We investigate theoretically the Zeeman effect on the lowest confined electron in quantum wires and ...
In a series of recent papers we demonstrated that coupled electro-mechanical effects can lead to pro...
There is currently great interest in fabrication of structures that are two and three dimensional an...
We propose correlated yet extremely simple single-parameter-dependent wave-function with a Slater-ty...
Nonlinear mathematical models are becoming increasingly important for new applications of low-dimens...
Dimensionality is an important factor to govern the electronic structures of semiconductor nanocryst...
This paper discusses the growth and the properties of semiconductor nanostructures based on self-ass...
We describe some of the physics peculiar to electron transport in quasi-one-dimensional systems in s...
Add to ORKG