Add to ORKGInteger filling factor phases of many-electron vertically coupled diatomic artificial quantum dot molecules are investigated for different values of the interdot coupling. The experimental results are analyzed within local-spin density functional theory for which we have determined a simple lateral confining potential law that can be scaled for the different coupling regimes, and Hartree-Fock theory. Maximum density droplets composed of electrons in both bonding and antibonding or just bonding states are revealed, and interesting isospin-flip physics appears for weak interdot coupling when the systematic depopulation of antibonding states leads to changes in isospin
We study the magnetic coupling in artificial molecules composed of two and four laterally coupled q...
The magnetic-field dependence of the ground state of two vertically coupled quantum dots is studied ...
Abstract. We show that the spin-and-space unrestricted Hartree-Fock method, in conjunction with the ...
Integer filling factor phases of many-electron vertically coupled diatomic artificial quantum dot mo...
We investigate integer filling factor phases of many-N-electron vertically coupled semiconductor qua...
Integer filling factor phases of many-electron vertically coupled diatomic artificial quantum dot mo...
We present excitation energy spectra of few-electron vertically coupled quantum dots for strong and ...
We have investigated the structure of double quantum dots vertically coupled at zero magnetic field ...
We present experimental results for the ground-state electrochemical potentials of a few electron se...
We present excitation energy spectra of few-electron vertically coupled quantum dots for strong and ...
Artificial molecules, namely laterally coupled quantum dots with a three-dimensional spherical confi...
Vertically coupled double quantum rings submitted to a perpendicular magnetic field B are addressed ...
We study coupled semiconductor quantum dots theoretically through a generalized Hubbard approach, wh...
The few-particle state of carriers confined in a quantum dot is controlled by the balance between th...
We investigate the dissociation of few-electron circular vertical semiconductor double quantum dot a...
We study the magnetic coupling in artificial molecules composed of two and four laterally coupled q...
The magnetic-field dependence of the ground state of two vertically coupled quantum dots is studied ...
Abstract. We show that the spin-and-space unrestricted Hartree-Fock method, in conjunction with the ...
Integer filling factor phases of many-electron vertically coupled diatomic artificial quantum dot mo...
We investigate integer filling factor phases of many-N-electron vertically coupled semiconductor qua...
Integer filling factor phases of many-electron vertically coupled diatomic artificial quantum dot mo...
We present excitation energy spectra of few-electron vertically coupled quantum dots for strong and ...
We have investigated the structure of double quantum dots vertically coupled at zero magnetic field ...
We present experimental results for the ground-state electrochemical potentials of a few electron se...
We present excitation energy spectra of few-electron vertically coupled quantum dots for strong and ...
Artificial molecules, namely laterally coupled quantum dots with a three-dimensional spherical confi...
Vertically coupled double quantum rings submitted to a perpendicular magnetic field B are addressed ...
We study coupled semiconductor quantum dots theoretically through a generalized Hubbard approach, wh...
The few-particle state of carriers confined in a quantum dot is controlled by the balance between th...
We investigate the dissociation of few-electron circular vertical semiconductor double quantum dot a...
We study the magnetic coupling in artificial molecules composed of two and four laterally coupled q...
The magnetic-field dependence of the ground state of two vertically coupled quantum dots is studied ...
Abstract. We show that the spin-and-space unrestricted Hartree-Fock method, in conjunction with the ...