Add to ORKGIn this article we discuss the ground state of a parabolically confined quantum dot in the limit of very strong magnetic fields where the electron system is completely spin-polarised and all electrons are in the lowest Landau level. Without electron-electron interactions the ground state is a single Slater determinant corresponding to a droplet centred on the minimum of the confinement potential and occupying the minimum area allowed by the Pauli exclusion principle. Electron-electron interactions favour droplets of larger area. We derive exact criteria for the stability of the maximum density droplet against edge excitations and against the introduction of holes in the interior of the droplet. The possibility of obtaining exact results in ...
A density-functional self-consistent calculation of the ground-state electronic density of quantum d...
We introduce a generalized ground state variational wavefunction for parabolically confined two-dime...
We present a method for calculating ground state properties of quantum dots in high magnetic fields ...
Theory of optical properties of interacting electrons and holes in quasi--2D quantum dots in strong ...
A theory of electronic properties of a spin-singlet quantum Hall droplet at filling factor nu= 2 in ...
We use density-functional methods to study the effects of an external magnetic field on two-dimensio...
Two-dimensional semiconductor quantum dots are studied in the filling-factor range 2<v<3. We find bo...
We consider the magnetic field dependence of the chemical potential for parabolically confined quant...
Theory of optical properties of interacting electrons and holes in quasi--2D quantum dots in strong ...
We consider the magnetic field dependence of the chemical potential for parabolically confined quant...
A lateral quantum dot with approx. 50 electrons is analyzed in high perpendicular magnetic fields. I...
We present a variational method for calculating ground-state properties of quantum dots in high magn...
Recent advances in the field of nanotechnology have enabled the precise, controlled fabrication of m...
Quantum dots are intricate and fascinating systems to study novel phenomena of great theoretical and...
The effect of an artificial impurity on electronic properties of interacting electron droplets in qu...
A density-functional self-consistent calculation of the ground-state electronic density of quantum d...
We introduce a generalized ground state variational wavefunction for parabolically confined two-dime...
We present a method for calculating ground state properties of quantum dots in high magnetic fields ...
Theory of optical properties of interacting electrons and holes in quasi--2D quantum dots in strong ...
A theory of electronic properties of a spin-singlet quantum Hall droplet at filling factor nu= 2 in ...
We use density-functional methods to study the effects of an external magnetic field on two-dimensio...
Two-dimensional semiconductor quantum dots are studied in the filling-factor range 2<v<3. We find bo...
We consider the magnetic field dependence of the chemical potential for parabolically confined quant...
Theory of optical properties of interacting electrons and holes in quasi--2D quantum dots in strong ...
We consider the magnetic field dependence of the chemical potential for parabolically confined quant...
A lateral quantum dot with approx. 50 electrons is analyzed in high perpendicular magnetic fields. I...
We present a variational method for calculating ground-state properties of quantum dots in high magn...
Recent advances in the field of nanotechnology have enabled the precise, controlled fabrication of m...
Quantum dots are intricate and fascinating systems to study novel phenomena of great theoretical and...
The effect of an artificial impurity on electronic properties of interacting electron droplets in qu...
A density-functional self-consistent calculation of the ground-state electronic density of quantum d...
We introduce a generalized ground state variational wavefunction for parabolically confined two-dime...
We present a method for calculating ground state properties of quantum dots in high magnetic fields ...