Add to ORKGIt is shown that by squeezing the vacuum fluctuations of the electromagnetic field the quantum fluctuations of the optical forces exerted on laser cooled two-level atoms, can be dramatically modified. Under certain conditions, this modification in concert with the enhanced average forces can lead to equilibrium temperatures below those attained under normal vacuum fluctuations
The interaction of an atomic two-level system and a squeezed vacuum leads to interesting novel effec...
The influence of the dipole-dipole interaction on the final atomic state of a two-atom system driven...
We report a 1D study of optical forces on atoms in a two-frequency laser field. The light couples tw...
Laser cooling of atoms has been a fast growing field of research during the recent years. A generic ...
The process of laser cooling in a quasi resonant standing laser wave is one of the principal techniq...
The laser cooling of atoms is a result of the combined effect of Doppler shift, light shift and pola...
We report exact results concerning the effect of dipole-dipole interaction (dispersion forces) on dy...
The force acting on a two-level atom in a low-intensity standing laser wave is calculated. On accoun...
We consider the force and the momentum diffusion for atoms moving in a standing wave laser field. We...
The study of atomic quantum behavior requires that atoms be in a low energy, low temperature state s...
https://pro.college-de-france.fr/jean.dalibard/publi2/josaB\₈9.pdfWe present two cooling mechanisms ...
Using the formalism developed earlier, we treat spontaneous emission from a three-level atom (ladder...
We present a microscopic laser model for many atoms coupled to a single cavity mode, including the l...
We study the effect of a broadband squeezed vacuum on the dynamics of a two-atom system driven by a ...
This dissertation presents a new scheme for cooling atoms by laser: the "velocity selective coherent...
The interaction of an atomic two-level system and a squeezed vacuum leads to interesting novel effec...
The influence of the dipole-dipole interaction on the final atomic state of a two-atom system driven...
We report a 1D study of optical forces on atoms in a two-frequency laser field. The light couples tw...
Laser cooling of atoms has been a fast growing field of research during the recent years. A generic ...
The process of laser cooling in a quasi resonant standing laser wave is one of the principal techniq...
The laser cooling of atoms is a result of the combined effect of Doppler shift, light shift and pola...
We report exact results concerning the effect of dipole-dipole interaction (dispersion forces) on dy...
The force acting on a two-level atom in a low-intensity standing laser wave is calculated. On accoun...
We consider the force and the momentum diffusion for atoms moving in a standing wave laser field. We...
The study of atomic quantum behavior requires that atoms be in a low energy, low temperature state s...
https://pro.college-de-france.fr/jean.dalibard/publi2/josaB\₈9.pdfWe present two cooling mechanisms ...
Using the formalism developed earlier, we treat spontaneous emission from a three-level atom (ladder...
We present a microscopic laser model for many atoms coupled to a single cavity mode, including the l...
We study the effect of a broadband squeezed vacuum on the dynamics of a two-atom system driven by a ...
This dissertation presents a new scheme for cooling atoms by laser: the "velocity selective coherent...
The interaction of an atomic two-level system and a squeezed vacuum leads to interesting novel effec...
The influence of the dipole-dipole interaction on the final atomic state of a two-atom system driven...
We report a 1D study of optical forces on atoms in a two-frequency laser field. The light couples tw...