The transport properties of quantum dots with up to N= 7 electrons ranging from a weak to a
strong interacting regime are investigated via the projected Hartree–Fock technique. As …

We study electron systems confined in anisotropic quantum dots at high magnetic fields
using the configuration-interaction scheme with a multicenter basis of single-electron …

We present the renormalized perturbation series for the energy spectra of parabolic
quantum dots with two to five electrons, taking into consideration the ground and the lowest …

We obtain exact analytical expressions for the total energy per particle and related quantities
corresponding to a finite quantum Hall system of electrons in a disk geometry when filling …

We present a group theoretical study of the symmetry-broken unrestricted Hartree-Fock
orbitals and electron densities in the case of a two-dimensional N-electron single quantum …

We introduce a generalized ground state variational wavefunction for parabolically confined
two-dimensional quantum dots that equally applies to both cases of weak (or zero) and …

We investigate fast rotating quasi-two-dimensional dipolar Fermi gases in the quantum Hall
regime. By tuning the direction of the dipole moments with respect to the z axis, the dipole …

We found that the two-dimensional Schrödinger equation for three electrons in a
homogeneous magnetic field (perpendicular to the plane) and a parabolic scalar …

The yrast spectra (ie, the lowest states for a given total angular momentum) of quantum dots
in strong magnetic fields, are studied in terms of exact numerical diagonalization and …

The Hamiltonian for a small number N⩽ 11 of bosons in a rapidly rotating harmonic trap,
interacting via a short range (contact potential) or a long range (Coulomb) interaction, is …