Add to ORKGThe time-independent Schrödinger equation is solved using the finite element method (FEM) and the finite difference method (FDM). The resulting eigenvalue problems are solved using the ARPACK++ library. Both methods are implemented in the same program so the methods can be compared. The program is limited to spherically symmetric potentials. We study a quantum system of two electrons in a harmonic oscillator potential and a constant magnetic field. This system is an approximation to the two-electron quantum dot. By a coordinate transformation this equation can be separated into two independent single-particle equations, which we can solve in the same program
Interaction and correlation effects in quantum dots play a fundamental role in defining both their e...
In this study, we have calculated energy levels of an N-electron quantum dot. For this purpose, we h...
We present a systematic investigation of calculating quantum dots (QDs) energy levels using finite e...
The time independent Schrödinger equation for two electrons confined in an external potential is sol...
The ground and excited states of a donor impurity at the center of a spherical quantum dot subject t...
Advances in lithographic technology have made it possible to fabricate systems in which electrons ar...
Our approach is quasi-analytical. We consider the Hamiltonian of a two-electron quantum dot composed...
Utilizing the finite difference time domain (FDTD) method, energy eigenvalues of spherical, cylindri...
This PhD project carries out research on the computational modeling and analysis of quantum dots. Th...
Exact solutions of the eigenstates of two-interacting electron quantum dot nanostructures in an exte...
ÖZET Bu çalışmada, teknolojik uygulamalarda önemli yer tutan düşük boyutlu yapıların fiziksel özelli...
This project uses the numerical technique known as the finite-difference method to solve for the ene...
We present new calculation schemes using high-order finite element method implemented on unstructure...
The quantum dots are nanocrystals structures, which allows differents optoeletronics properties from...
University of Minnesota M.S. thesis. January 2010. Major: Electrical and Computer Engineering. Advis...
Interaction and correlation effects in quantum dots play a fundamental role in defining both their e...
In this study, we have calculated energy levels of an N-electron quantum dot. For this purpose, we h...
We present a systematic investigation of calculating quantum dots (QDs) energy levels using finite e...
The time independent Schrödinger equation for two electrons confined in an external potential is sol...
The ground and excited states of a donor impurity at the center of a spherical quantum dot subject t...
Advances in lithographic technology have made it possible to fabricate systems in which electrons ar...
Our approach is quasi-analytical. We consider the Hamiltonian of a two-electron quantum dot composed...
Utilizing the finite difference time domain (FDTD) method, energy eigenvalues of spherical, cylindri...
This PhD project carries out research on the computational modeling and analysis of quantum dots. Th...
Exact solutions of the eigenstates of two-interacting electron quantum dot nanostructures in an exte...
ÖZET Bu çalışmada, teknolojik uygulamalarda önemli yer tutan düşük boyutlu yapıların fiziksel özelli...
This project uses the numerical technique known as the finite-difference method to solve for the ene...
We present new calculation schemes using high-order finite element method implemented on unstructure...
The quantum dots are nanocrystals structures, which allows differents optoeletronics properties from...
University of Minnesota M.S. thesis. January 2010. Major: Electrical and Computer Engineering. Advis...
Interaction and correlation effects in quantum dots play a fundamental role in defining both their e...
In this study, we have calculated energy levels of an N-electron quantum dot. For this purpose, we h...
We present a systematic investigation of calculating quantum dots (QDs) energy levels using finite e...