Add to ORKGWe propose an easy to use model to solve for interacting atoms in an optical lattice. This model allows for the whole range of weakly to strongly interacting atoms, and it includes the coupling between relative and center-of-mass motion via anharmonic lattice terms. We apply this model to a high-precision spin dynamics experiment, and we discuss the corrections due to atomic interactions and the anharmonic coupling. Under suitable experimental conditions, energy can be transferred between the relative and center-of-mass motion, and this allows for creation of Feshbach molecules in excited lattice bands
This thesis explores certain extraordinary phenomena that occur when a gas of neutral atoms is coole...
International audienceWe compute scattering and bound state properties for two ultracold molecules i...
Understanding strong cooperative optical responses in dense and cold atomic ensembles is vital for f...
We propose an easy to use model to solve for interacting atoms in an optical lattice. This model all...
We propose an easy to use model for interacting atoms in an optical lattice. This model allows for t...
Optical lattices provide ideal experimental tools for simulating a wide variety of physical systems....
We propose a scheme involving cold atoms trapped in optical lattices to observe different phenomena ...
We show that recent high-precision measurements of relative on-site interaction energies $\Delta U$ ...
We derive effective lattice models for ultracold bosonic or fermionic nonreactive molecules (NRMs) i...
This dissertation summarizes my recent work regarding systems of strongly interacting fermionic atom...
We describe a general technique that allows one to induce and control strong interaction between spi...
Optical lattices provide ideal experimental tools for simulating a wide variety of physical systems....
Optical lattices make it possible to trap and coherently control large ensembles of ultracold atoms....
We derive effective lattice models for ultracold bosonic or fermionic nonreactive molecules (NRMs) i...
Most experiments with ultracold atoms in optical lattices have contactinteractions, and therefore op...
This thesis explores certain extraordinary phenomena that occur when a gas of neutral atoms is coole...
International audienceWe compute scattering and bound state properties for two ultracold molecules i...
Understanding strong cooperative optical responses in dense and cold atomic ensembles is vital for f...
We propose an easy to use model to solve for interacting atoms in an optical lattice. This model all...
We propose an easy to use model for interacting atoms in an optical lattice. This model allows for t...
Optical lattices provide ideal experimental tools for simulating a wide variety of physical systems....
We propose a scheme involving cold atoms trapped in optical lattices to observe different phenomena ...
We show that recent high-precision measurements of relative on-site interaction energies $\Delta U$ ...
We derive effective lattice models for ultracold bosonic or fermionic nonreactive molecules (NRMs) i...
This dissertation summarizes my recent work regarding systems of strongly interacting fermionic atom...
We describe a general technique that allows one to induce and control strong interaction between spi...
Optical lattices provide ideal experimental tools for simulating a wide variety of physical systems....
Optical lattices make it possible to trap and coherently control large ensembles of ultracold atoms....
We derive effective lattice models for ultracold bosonic or fermionic nonreactive molecules (NRMs) i...
Most experiments with ultracold atoms in optical lattices have contactinteractions, and therefore op...
This thesis explores certain extraordinary phenomena that occur when a gas of neutral atoms is coole...
International audienceWe compute scattering and bound state properties for two ultracold molecules i...
Understanding strong cooperative optical responses in dense and cold atomic ensembles is vital for f...