Add to ORKGSystems of three particles show a surprising feature in their bound state spectrum: a series of geometrically scaled states, known as Efimov states. These states have not yet been observed directly, but many recent experiments show indirect evidence of their existence via the so-called recombination process. The theories that predict the Efimov states also predicts either resonant enhancement of the recombination process or suppression by destructive interference, depending on the sign of the interaction between the particles. The theories predict universal features for the Efimov states, for instance that the geometric scaling factor is 22.7, meaning that one state is 22.7 times larger than its lower lying neighbour state. This thesis seek...
The quantum Efimov effect manifests itself in the limit of resonant two-body interactions, where the...
We study the impact of three-body physics in quenched unitary Bose gases, focusing on the role of th...
We are developing theoretical and computational methods to study two related three-body processes in...
This work will introduce the Efimov effect and the resonant and scaling limits and derive the formul...
The mass-imbalanced three-body recombination process that forms a shallow dimer is shown to possess ...
We demonstrate the emergence of universal Efimov physics for interacting photons in cold gases of Ry...
A new narrow three-atom loss resonance associated with an Efimov trimer crossing the three-atom thre...
We report on experimental evidence of universality in ultracold Li7 atoms' three-body recombination ...
Under certain circumstances, three or more interacting particles may form bound states. While the ge...
We demonstrate the implications of Efimov physics in the recently measured recombination rate of Cs-...
The usefulness of a scale-independent approach to identify Efimov states in three-body systems is sh...
International audienceWe study Efimov resonances via three-body loss in an ultracold two-component g...
Abstract. The three-body recombination coefficient of an ultracold atomic system, together with the ...
We investigate theoretically and experimentally the heteronuclear Efimov scenario for a three-body s...
We combine theory and experiment to investigate five-body recombination in an ultracold gas of atomi...
The quantum Efimov effect manifests itself in the limit of resonant two-body interactions, where the...
We study the impact of three-body physics in quenched unitary Bose gases, focusing on the role of th...
We are developing theoretical and computational methods to study two related three-body processes in...
This work will introduce the Efimov effect and the resonant and scaling limits and derive the formul...
The mass-imbalanced three-body recombination process that forms a shallow dimer is shown to possess ...
We demonstrate the emergence of universal Efimov physics for interacting photons in cold gases of Ry...
A new narrow three-atom loss resonance associated with an Efimov trimer crossing the three-atom thre...
We report on experimental evidence of universality in ultracold Li7 atoms' three-body recombination ...
Under certain circumstances, three or more interacting particles may form bound states. While the ge...
We demonstrate the implications of Efimov physics in the recently measured recombination rate of Cs-...
The usefulness of a scale-independent approach to identify Efimov states in three-body systems is sh...
International audienceWe study Efimov resonances via three-body loss in an ultracold two-component g...
Abstract. The three-body recombination coefficient of an ultracold atomic system, together with the ...
We investigate theoretically and experimentally the heteronuclear Efimov scenario for a three-body s...
We combine theory and experiment to investigate five-body recombination in an ultracold gas of atomi...
The quantum Efimov effect manifests itself in the limit of resonant two-body interactions, where the...
We study the impact of three-body physics in quenched unitary Bose gases, focusing on the role of th...
We are developing theoretical and computational methods to study two related three-body processes in...