Add to ORKGWe show that the dipole-dipole interaction between three identical Rydberg atoms can give rise to bound trimer states. The microscopic origin of these states is fundamentally different from Efimov physics. Two stable trimer configurations exist where the atoms form the vertices of an equilateral triangle in a plane perpendicular to a static electric field. The triangle edge length typically exceeds R≈2 μm, and each configuration is twofold degenerate due to Kramers degeneracy. The depth of the potential wells and the triangle edge length can be controlled by external parameters. We establish the Borromean nature of the trimer states, analyze the quantum dynamics in the potential wells, and describe methods for their production and detection
When studying the structure formation and fragmentation of complex atomic and nuclear systems it is ...
We investigate the interaction between two rubidium atoms in highly excited Rydberg states, and find...
Controlling the interactions between ultracold atoms is crucial for quantum simulation and computati...
We show that the dipole-dipole interaction between three identical Rydberg atoms can give rise to bo...
We show that the dipole-dipole interaction between two Rydberg atoms can give rise to long-range mol...
International audienceWe have observed recently the Stark-tuned three-body Förster resonances 3 × nP...
The work presented in this dissertation represents a comprehensive study on long-range interactions ...
In Rydberg atoms, at least one electron is excited to a state with a high principal quantum number. ...
The properties of a Rydberg atom immersed in an ultracold environment were investigated. Two scenari...
We investigate the effect of degenerate atomic states on the exciton delocalization of dipole-dipole...
During the past decades, numerous exotic states that cannot be explained by the conventional quark m...
Trimers are defined as two adjacent edges on a graph. We study the quantum states obtained as equal-...
Under certain circumstances, three or more interacting particles may form bound states. While the ge...
The Efimov effect describes that in a three-body system of identical bosons, an accumulation of boun...
Abstract. The three-body recombination coefficient of an ultracold atomic system, together with the ...
When studying the structure formation and fragmentation of complex atomic and nuclear systems it is ...
We investigate the interaction between two rubidium atoms in highly excited Rydberg states, and find...
Controlling the interactions between ultracold atoms is crucial for quantum simulation and computati...
We show that the dipole-dipole interaction between three identical Rydberg atoms can give rise to bo...
We show that the dipole-dipole interaction between two Rydberg atoms can give rise to long-range mol...
International audienceWe have observed recently the Stark-tuned three-body Förster resonances 3 × nP...
The work presented in this dissertation represents a comprehensive study on long-range interactions ...
In Rydberg atoms, at least one electron is excited to a state with a high principal quantum number. ...
The properties of a Rydberg atom immersed in an ultracold environment were investigated. Two scenari...
We investigate the effect of degenerate atomic states on the exciton delocalization of dipole-dipole...
During the past decades, numerous exotic states that cannot be explained by the conventional quark m...
Trimers are defined as two adjacent edges on a graph. We study the quantum states obtained as equal-...
Under certain circumstances, three or more interacting particles may form bound states. While the ge...
The Efimov effect describes that in a three-body system of identical bosons, an accumulation of boun...
Abstract. The three-body recombination coefficient of an ultracold atomic system, together with the ...
When studying the structure formation and fragmentation of complex atomic and nuclear systems it is ...
We investigate the interaction between two rubidium atoms in highly excited Rydberg states, and find...
Controlling the interactions between ultracold atoms is crucial for quantum simulation and computati...