Add to ORKGAdvances in trapping and cooling of ultracold gases over the last several decades have made it possible to test many formerly outstanding predictions from disparate branches of physics. This thesis touches on three historical problems that have found new life recently in the context of ultracold Bose gases of alkali atoms. The first problem revolves around an outstanding prediction from Boltzmann over a century and half old that the breathing mode of a isotropically trapped classical gas should oscillate indefinitely. I analyze recent experimental results [Nat. Phys. 11, 1009 (2015)], and attribute observed damping sources to trap imperfections. The second question is about the analogue of first and second sound modes from liquid helium in ...
In 1995 two different research groups observed for the first time the Bose-Einstein condensation (BE...
In this dissertation, we study the few-body ultracold Bose-Fermi mixture and quasi-1D scattering at ...
Bose-Einstein condensation is a phase transition which atoms undergo when cooled near absolute zero ...
Bose-Einstein condensation, theoretically known to appear at ultralow temperatures since the 1920s, ...
International audienceThis chapter presents an overview of the specific experimental tools developed...
The emergence of many-body physical phenomena from the quantum mechanical properties of atoms can be...
Ultracold atoms are exceptional tools to explore the physics of quantum matter. In fact, the high de...
This thesis describes a collection of experiments that explore interacting ultracold Bose gases, bot...
In this thesis, we investigated the physics of two- and three-dimensional ultra cold Bose gases in t...
We study ultracold gases of alkali-metal atoms in the quantum degenerate regime. The interatomic int...
This thesis describes studies of out-of-equilibrium dynamics in an interacting homogeneous Bose gas....
We study the quench of a degenerate ultracold Bose gas to the unitary regime, where interactions are...
We are developing theoretical and computational methods to study two related three-body processes in...
The field of ultra-cold atomic physics allows probing of two-component quantum liquids with a hydrod...
The stationary state solutions and dynamics of Bose-Einstein condensates (BECs) at T = 0 are well de...
In 1995 two different research groups observed for the first time the Bose-Einstein condensation (BE...
In this dissertation, we study the few-body ultracold Bose-Fermi mixture and quasi-1D scattering at ...
Bose-Einstein condensation is a phase transition which atoms undergo when cooled near absolute zero ...
Bose-Einstein condensation, theoretically known to appear at ultralow temperatures since the 1920s, ...
International audienceThis chapter presents an overview of the specific experimental tools developed...
The emergence of many-body physical phenomena from the quantum mechanical properties of atoms can be...
Ultracold atoms are exceptional tools to explore the physics of quantum matter. In fact, the high de...
This thesis describes a collection of experiments that explore interacting ultracold Bose gases, bot...
In this thesis, we investigated the physics of two- and three-dimensional ultra cold Bose gases in t...
We study ultracold gases of alkali-metal atoms in the quantum degenerate regime. The interatomic int...
This thesis describes studies of out-of-equilibrium dynamics in an interacting homogeneous Bose gas....
We study the quench of a degenerate ultracold Bose gas to the unitary regime, where interactions are...
We are developing theoretical and computational methods to study two related three-body processes in...
The field of ultra-cold atomic physics allows probing of two-component quantum liquids with a hydrod...
The stationary state solutions and dynamics of Bose-Einstein condensates (BECs) at T = 0 are well de...
In 1995 two different research groups observed for the first time the Bose-Einstein condensation (BE...
In this dissertation, we study the few-body ultracold Bose-Fermi mixture and quasi-1D scattering at ...
Bose-Einstein condensation is a phase transition which atoms undergo when cooled near absolute zero ...