We study the few-body physics of trapped atoms or molecules with electric or magnetic dipole moments aligned by an external field. Using exact numerical diagonalization appropriate for the strongly correlated regime, as well as a classical analysis, we show how Wigner localization emerges with increasing coupling strength. The Wigner states exhibit nontrivial geometries due to the anisotropy of the interaction. This leads to transitions between different Wigner states as the tilt angle of the dipoles with the confining plane is changed. Intriguingly, while the individual Wigner states are well described by a classical analysis, the transitions between different Wigner states are strongly affected by quantum statistics. This can be understoo...
Systems of strongly interacting dipoles offer an attractive platform to study many-body localized ph...
The formation of the Wigner molecules in three-dimensional assemblies of equicharged particles upon ...
Phase transitions are generally a many-body phenomenon, and in order to access the full range of int...
We investigate the occurence of Wigner-localization phenomena in bosonic dipolar ultracold few-body ...
Resubmission to SciPost 8 pages, 3 figuresIn this work we investigate Wigner localization at very lo...
We analyze the microscopic few-body properties of dipolar particles confined in two parallel quasi-o...
International audienceIn this work, we study the Wigner localization of interacting electrons that a...
The strong-localization limit of three-dimensional Wigner molecules, in which repulsively interactin...
Coupled semiconductor quantum dots form artificial molecules where relevant energy scales controllin...
Motivated by the recent experimental measurements of the dielectric property of confined quantum dip...
We assess whether a confined Wigner molecule constituted by 2N fermions behaves as N bosons or 2N fe...
We studied one-dimensional systems formed by N identical particles confined in a harmonic trap and s...
We study the ground state of few bosons with repulsive dipole-dipole interaction in a quasi-one-dime...
Interactions between physical bodies constantly affect their properties. This thesis presents a theo...
The quantum phase transitions of dipoles confined to the vertices of two-dimensional lattices of squ...
Systems of strongly interacting dipoles offer an attractive platform to study many-body localized ph...
The formation of the Wigner molecules in three-dimensional assemblies of equicharged particles upon ...
Phase transitions are generally a many-body phenomenon, and in order to access the full range of int...
We investigate the occurence of Wigner-localization phenomena in bosonic dipolar ultracold few-body ...
Resubmission to SciPost 8 pages, 3 figuresIn this work we investigate Wigner localization at very lo...
We analyze the microscopic few-body properties of dipolar particles confined in two parallel quasi-o...
International audienceIn this work, we study the Wigner localization of interacting electrons that a...
The strong-localization limit of three-dimensional Wigner molecules, in which repulsively interactin...
Coupled semiconductor quantum dots form artificial molecules where relevant energy scales controllin...
Motivated by the recent experimental measurements of the dielectric property of confined quantum dip...
We assess whether a confined Wigner molecule constituted by 2N fermions behaves as N bosons or 2N fe...
We studied one-dimensional systems formed by N identical particles confined in a harmonic trap and s...
We study the ground state of few bosons with repulsive dipole-dipole interaction in a quasi-one-dime...
Interactions between physical bodies constantly affect their properties. This thesis presents a theo...
The quantum phase transitions of dipoles confined to the vertices of two-dimensional lattices of squ...
Systems of strongly interacting dipoles offer an attractive platform to study many-body localized ph...
The formation of the Wigner molecules in three-dimensional assemblies of equicharged particles upon ...
Phase transitions are generally a many-body phenomenon, and in order to access the full range of int...