Add to ORKGWe study Anderson orthogonality catastrophe (AOC) for parabolic quantum dots and focus on the effects of degeneracies, realized through the inherent shell structure of their energy levels that can be lifted through an external magnetic field, on the Anderson overlap. We find rich and interesting behaviors as a function of the strength and position of the perturbation, the system size, and the applied magnetic field. In particular, even for weak perturbations, we observe a pronounced AOC that is related to the degeneracy of energy levels. Most importantly, the power-law decay of the Anderson overlap as a function of the number of particles is modified in comparison to the metallic case due to the rearrangement of the energy-level shell struc...
We present a magnetophotoluminescence study on neutral and charged excitons confined to InAs/GaAs qu...
We quantify the asymptotic vanishing of the ground-state overlap of two non-interacting Fermi gases ...
We investigate a one-component, quasi–zero-dimensional, quantum plasma exposed to a parabolic potent...
We study Anderson orthogonality catastrophe (AOC) for parabolic quantum dots and focus on the effect...
For generic mesoscopic systems, such as quantum dots or nanoparticles, we study the Anderson orthogo...
For generic mesoscopic systems like quantum dots or nanoparticles, we study the Anderson orthogonali...
10 pages, 8 figuresFor generic mesoscopic systems like quantum dots or nanoparticles, we study the A...
We discuss the orthogonality catastrophe between the ground states of the unperturbed and perturbed ...
We address the phenomenon of statistical orthogonality catastrophe in insulating disordered systems....
Applying a magnetic field on an electronic system where levels are quantized has the effect of lifti...
The Anderson orthogonality theorem is derived for a general non · separable local potential. It is s...
We calculate the photoluminescence spectrum of a single semiconductor quantum dot strongly coupled t...
We present a detailed numerical study of the orthogonality catastrophe exponent for a one-dimensiona...
Performing optical spectroscopy of highly homogeneous quantum dot arrays in ultrahigh magnetic field...
Performing optical spectroscopy of highly homogeneous quantum dot arrays in ultrahigh magnetic fiel...
We present a magnetophotoluminescence study on neutral and charged excitons confined to InAs/GaAs qu...
We quantify the asymptotic vanishing of the ground-state overlap of two non-interacting Fermi gases ...
We investigate a one-component, quasi–zero-dimensional, quantum plasma exposed to a parabolic potent...
We study Anderson orthogonality catastrophe (AOC) for parabolic quantum dots and focus on the effect...
For generic mesoscopic systems, such as quantum dots or nanoparticles, we study the Anderson orthogo...
For generic mesoscopic systems like quantum dots or nanoparticles, we study the Anderson orthogonali...
10 pages, 8 figuresFor generic mesoscopic systems like quantum dots or nanoparticles, we study the A...
We discuss the orthogonality catastrophe between the ground states of the unperturbed and perturbed ...
We address the phenomenon of statistical orthogonality catastrophe in insulating disordered systems....
Applying a magnetic field on an electronic system where levels are quantized has the effect of lifti...
The Anderson orthogonality theorem is derived for a general non · separable local potential. It is s...
We calculate the photoluminescence spectrum of a single semiconductor quantum dot strongly coupled t...
We present a detailed numerical study of the orthogonality catastrophe exponent for a one-dimensiona...
Performing optical spectroscopy of highly homogeneous quantum dot arrays in ultrahigh magnetic field...
Performing optical spectroscopy of highly homogeneous quantum dot arrays in ultrahigh magnetic fiel...
We present a magnetophotoluminescence study on neutral and charged excitons confined to InAs/GaAs qu...
We quantify the asymptotic vanishing of the ground-state overlap of two non-interacting Fermi gases ...
We investigate a one-component, quasi–zero-dimensional, quantum plasma exposed to a parabolic potent...