Add to ORKGWe study the ground-state properties of two-dimensional quantum-dot helium in zero external magnetic field (a system of two interacting electrons in a two-dimensional parabolic confinement potential) by using perturbation and variational theory. We introduce a family of ground-state trial wave functions with one, two, and three variational parameters. We compare the perturbation and variational energies with numerically exact diagonalization results and earlier unrestricted Hartree-Fock studies. We find that the three-parameter variational wave function is an excellent representation of the true ground state and argue on how to generalize such a wave function for larger quantum dots with arbitrary numbers of electrons
We consider a system of few electrons trapped in a two-dimensional circularquantum dot with harmonic...
We have computed electronic structures and total energies of circularly confined two-dimensional qua...
We consider the magnetic field dependence of the chemical potential for parabolically confined quant...
We study the ground-state properties of two-dimensional quantum-dot helium in zero external magnetic...
A trial wave function for two-dimensional quantum-dot helium in an arbitrary perpendicular magnetic ...
We introduce a generalized ground state variational wavefunction for parabolically confined two-dime...
876-879The ground-state properties of two-dimensional quantum-dot helium have been studied. The shif...
We present a variational method for calculating ground-state properties of quantum dots in high magn...
Quantum dots are intricate and fascinating systems to study novel phenomena of great theoretical and...
Recent advances in the field of nanotechnology have enabled the precise, controlled fabrication of m...
We derive an analytic, albeit approximate, expression for the ground state energy of N Coulomb inter...
The ground states of N-electron parabolic quantum dots in the presence of a perpendicular magnetic f...
A density-functional self-consistent calculation of the ground-state electronic density of quantum d...
A study of variational wave functions for calculation of the ground-state energies of excitons confi...
One of the standard approaches to calculate the ground-state properties of strongly correlated elect...
We consider a system of few electrons trapped in a two-dimensional circularquantum dot with harmonic...
We have computed electronic structures and total energies of circularly confined two-dimensional qua...
We consider the magnetic field dependence of the chemical potential for parabolically confined quant...
We study the ground-state properties of two-dimensional quantum-dot helium in zero external magnetic...
A trial wave function for two-dimensional quantum-dot helium in an arbitrary perpendicular magnetic ...
We introduce a generalized ground state variational wavefunction for parabolically confined two-dime...
876-879The ground-state properties of two-dimensional quantum-dot helium have been studied. The shif...
We present a variational method for calculating ground-state properties of quantum dots in high magn...
Quantum dots are intricate and fascinating systems to study novel phenomena of great theoretical and...
Recent advances in the field of nanotechnology have enabled the precise, controlled fabrication of m...
We derive an analytic, albeit approximate, expression for the ground state energy of N Coulomb inter...
The ground states of N-electron parabolic quantum dots in the presence of a perpendicular magnetic f...
A density-functional self-consistent calculation of the ground-state electronic density of quantum d...
A study of variational wave functions for calculation of the ground-state energies of excitons confi...
One of the standard approaches to calculate the ground-state properties of strongly correlated elect...
We consider a system of few electrons trapped in a two-dimensional circularquantum dot with harmonic...
We have computed electronic structures and total energies of circularly confined two-dimensional qua...
We consider the magnetic field dependence of the chemical potential for parabolically confined quant...