Add to ORKGLow dimensional semiconductor structures are modeled using techniques from the field of many-body atomic physics. B-splines are used to create a one-particle basis, used to solve the more complex many-body problems. Details on methods such as the Configuration Interaction (CI), Many-Body Perturbation Theory (MBPT) and Coupled Cluster (CC) are discussed. Results from the CC singles and doubles method are compared to other high-precision methods for the circular harmonic oscillator quantum dot. The results show a good agreement for the energy of many-body states of up to 12 electrons. Properties of elliptical quantum dots, circular quantum dots, quantum rings and concentric quantum rings are all reviewed. The effects of tilted external magnet...
Semiconductor nanostructures show many special physical properties associated with quantum confineme...
We show that the addition spectra of semiconductor quantum dots in the presence of magnetic field ca...
We show that the addition spectra of semiconductor quantum dots in the presence of magnetic field ca...
We discuss the quantum dot-ring nanostructure (DRN) as canonical example of a nanosystem, for which ...
Quantum chemical methods originally developed for studying atomic and molecular systems can be appli...
Quantum chemical methods originally developed for studying atomic and molecular systems can be appli...
Recent progress in experimental studies of low-dimensional systems with strong spin-orbit coupling p...
Many-Body Perturbation Theory is put to test as a method for reliable calculations of the electron-e...
Many-Body Perturbation Theory is put to test as a method for reliable calculations of the electron-e...
Many-Body Perturbation Theory is put to test as a method for reliable calculations of the electron-e...
In this thesis theoretical models for the description of optical properties of semiconductor quantum...
The electronic structure and optical properties of hexagonal armchair and zigzag-edged graphene quan...
We discuss the quantum dot-ring nanostructure (DRN) as canonical example of a nanosystem, for which ...
Semiconductor nanostructures show many special physical properties associated with quantum confineme...
This paper will review otomic-like phenomena in a semiconductor quantum dot which their size, shape ...
Semiconductor nanostructures show many special physical properties associated with quantum confineme...
We show that the addition spectra of semiconductor quantum dots in the presence of magnetic field ca...
We show that the addition spectra of semiconductor quantum dots in the presence of magnetic field ca...
We discuss the quantum dot-ring nanostructure (DRN) as canonical example of a nanosystem, for which ...
Quantum chemical methods originally developed for studying atomic and molecular systems can be appli...
Quantum chemical methods originally developed for studying atomic and molecular systems can be appli...
Recent progress in experimental studies of low-dimensional systems with strong spin-orbit coupling p...
Many-Body Perturbation Theory is put to test as a method for reliable calculations of the electron-e...
Many-Body Perturbation Theory is put to test as a method for reliable calculations of the electron-e...
Many-Body Perturbation Theory is put to test as a method for reliable calculations of the electron-e...
In this thesis theoretical models for the description of optical properties of semiconductor quantum...
The electronic structure and optical properties of hexagonal armchair and zigzag-edged graphene quan...
We discuss the quantum dot-ring nanostructure (DRN) as canonical example of a nanosystem, for which ...
Semiconductor nanostructures show many special physical properties associated with quantum confineme...
This paper will review otomic-like phenomena in a semiconductor quantum dot which their size, shape ...
Semiconductor nanostructures show many special physical properties associated with quantum confineme...
We show that the addition spectra of semiconductor quantum dots in the presence of magnetic field ca...
We show that the addition spectra of semiconductor quantum dots in the presence of magnetic field ca...