Add to ORKGInteractions between physical bodies constantly affect their properties. This thesis presents a theoretical study on the effects of interaction in few-body nanowire quantum dots. The focus is to a large extent on a phenomenon called Wigner localization, and how this, as well as other interaction effects, can be identified in an experiment by transport spectroscopy and by thermopower measurements. The physical systems considered are electrons in semiconductor nanowires and an ultracold gas of dipolar particles in magneto-optical traps. The full many-body description of the nanowire quantum dot is obtained by exact diagonalization (also known as the configuration interaction method) while the transport simulations are based on a Pauli master ...
Tutor: Raúl Toral.The main goal of this thesis is to study the quantum transport of quantum dot syst...
For small magnetic memories, the ultimate limit is a single magnetic particle, a single electron spi...
In this thesis, quantum transport through nanostructures is addressed theoretically by considering s...
It was predicted by Wigner in 1934 that an electron gas will undergo a transition to a crystallized ...
We investigate the linear DC transport properties of one-dimensional quantum dots that are immersed ...
Measuring the thermopower of a confined quantum system reveals important information about its excit...
Quantum dots are an important model system for thermoelectric phenomena, and may be used to enhance ...
Thermal effects on the total charge density are studied for a one-dimensional correlated quantum dot...
The transport properties of quantum dots with up to N = 7 electrons ranging from a weak to a strong ...
In this chapter, we present developments in quantum transport in one-dimensional (1D) semiconductor ...
In this thesis we study quantum transport in several one-dimensional systems with strong electronic ...
In this thesis, we study quantum transport properties of superconductor-semiconductor nanowire hybri...
We investigate the effect of strong interactions on the spectral properties of quantum wires with st...
We investigate the effect of strong interactions on the spectral properties of quantum wires with st...
Nanoscale wires and molecules have remarkable electrical properties that make them well suited for n...
Tutor: Raúl Toral.The main goal of this thesis is to study the quantum transport of quantum dot syst...
For small magnetic memories, the ultimate limit is a single magnetic particle, a single electron spi...
In this thesis, quantum transport through nanostructures is addressed theoretically by considering s...
It was predicted by Wigner in 1934 that an electron gas will undergo a transition to a crystallized ...
We investigate the linear DC transport properties of one-dimensional quantum dots that are immersed ...
Measuring the thermopower of a confined quantum system reveals important information about its excit...
Quantum dots are an important model system for thermoelectric phenomena, and may be used to enhance ...
Thermal effects on the total charge density are studied for a one-dimensional correlated quantum dot...
The transport properties of quantum dots with up to N = 7 electrons ranging from a weak to a strong ...
In this chapter, we present developments in quantum transport in one-dimensional (1D) semiconductor ...
In this thesis we study quantum transport in several one-dimensional systems with strong electronic ...
In this thesis, we study quantum transport properties of superconductor-semiconductor nanowire hybri...
We investigate the effect of strong interactions on the spectral properties of quantum wires with st...
We investigate the effect of strong interactions on the spectral properties of quantum wires with st...
Nanoscale wires and molecules have remarkable electrical properties that make them well suited for n...
Tutor: Raúl Toral.The main goal of this thesis is to study the quantum transport of quantum dot syst...
For small magnetic memories, the ultimate limit is a single magnetic particle, a single electron spi...
In this thesis, quantum transport through nanostructures is addressed theoretically by considering s...