Add to ORKGWe analyze the ground state energy and spin of quantum dots obtained from spin density functional theory (SDFT) calculations. First, we introduce a Strutinsky-type approximation, in which quantum interference is treated as a correction to a smooth Thomas-Fermi description. For large irregular dots, we find that the second-order Strutinsky expressions have an accuracy of about 5 percent compared to the full SDFT and capture all the qualitative features. Second, we perform a random matrix theory/random plane wave analysis of the Strutinsky SDFT expressions. The results are statistically similar to the SDFT quantum dot statistics. Finally, we note that the second-order Strutinsky approximation provides, in essence, a Landau Fermi liquid pictur...
We have computed electronic structures and total energies of circularly confined two-dimensional qua...
10 pages, 12 figuresWe use Kohn-Sham spin-density-functional theory to study the statistics of groun...
Electron correlations in a two-electron two-dimensional ‘artificial atom’ or quantum dot (with harmo...
We analyze the ground state energy and spin of quantum dots obtained from spin density functional th...
We develop a semiclassical density functional theory in the context of quantum dots. Coulomb blockad...
Using quantum dot artificial atoms as a simple toy model, we reflect on the question of whether spin...
Using quantum dot artificial atoms as a simple toy model, we reflect on the question of whether spin...
Using quantum dot artificial atoms as a simple toy model, we reflect on the question of whether spin...
We study a model quantum dot system in an external magnetic field by using both spin-density-functio...
A density-functional self-consistent calculation of the ground-state electronic density of quantum d...
We use Kohn-Sham spin-density-functional theory to study the statistics of ground-state spin and the...
A lateral quantum dot with approx. 50 electrons is analyzed in high perpendicular magnetic fields. I...
We benchmark the ground state energies and the density profiles of atomic repulsive Fermi gases in o...
The description of interacting many-electron systems in external magnetic fields is considered in th...
The magnetic extension of the Thomas-Fermi-Weizsäcker kinetic energy is used within density-functio...
We have computed electronic structures and total energies of circularly confined two-dimensional qua...
10 pages, 12 figuresWe use Kohn-Sham spin-density-functional theory to study the statistics of groun...
Electron correlations in a two-electron two-dimensional ‘artificial atom’ or quantum dot (with harmo...
We analyze the ground state energy and spin of quantum dots obtained from spin density functional th...
We develop a semiclassical density functional theory in the context of quantum dots. Coulomb blockad...
Using quantum dot artificial atoms as a simple toy model, we reflect on the question of whether spin...
Using quantum dot artificial atoms as a simple toy model, we reflect on the question of whether spin...
Using quantum dot artificial atoms as a simple toy model, we reflect on the question of whether spin...
We study a model quantum dot system in an external magnetic field by using both spin-density-functio...
A density-functional self-consistent calculation of the ground-state electronic density of quantum d...
We use Kohn-Sham spin-density-functional theory to study the statistics of ground-state spin and the...
A lateral quantum dot with approx. 50 electrons is analyzed in high perpendicular magnetic fields. I...
We benchmark the ground state energies and the density profiles of atomic repulsive Fermi gases in o...
The description of interacting many-electron systems in external magnetic fields is considered in th...
The magnetic extension of the Thomas-Fermi-Weizsäcker kinetic energy is used within density-functio...
We have computed electronic structures and total energies of circularly confined two-dimensional qua...
10 pages, 12 figuresWe use Kohn-Sham spin-density-functional theory to study the statistics of groun...
Electron correlations in a two-electron two-dimensional ‘artificial atom’ or quantum dot (with harmo...