Add to ORKGWe observed a new type of sub-Doppler cooling that employs neither polarization gradients nor magnetic fields, and involves neither a damping force nor significant diftusive heating. Instead, light shifts combined with optical pumping (OP) to levels not coupled by the laser field gives transient cooling, and steady state is not achieved. The time scale is set by the OP rate. We observe both cooling and heating, but often with the opposite detuning from that of steady state. A semiclassical and a fully quantum mechanical calculation of transient cooling agree very well with one another and with our data
Laser cooling processes are theoretically investigated for a cascade scheme of atomic levels where t...
We investigate the region of validity of the semiclassical approach to simulating laser cooling. We ...
We analyze the lowest achievable temperature for a mechanical oscillator coupled with a quantum refr...
We observed a new type of sub-Doppler cooling that employs neither polarization gradients nor magnet...
Sub-Doppler laser cooling requires optical pumping among differently light-shifted ground-state subl...
https://pro.college-de-france.fr/jean.dalibard/publi2/josaB\₈9.pdfWe present two cooling mechanisms ...
We report a 1D study of optical forces on atoms in a two-frequency laser field. The light couples tw...
In this paper we experimentally and theoretically investigate laser cooling of Strontium 88 atoms in...
Laser cooling is a groundbreaking technology that manipulates the light-atom inter-action to decreas...
The authors thank Peter Domokos and Helmut Ritsch for helpful discussionsWe present a mechanism fo...
We have applied the method of single atom trajectories to study the mechanism behind some cooling s...
We present an extensive set of measurements on one-dimensional sub-Doppler cooling and channeling in...
We report computational results for the time evolution of the velocity distribution P(V,t) for two-l...
We present a theoretical analysis of a novel scheme for optical cooling of particles that does not i...
We present a summary of the results of a simple two-level theory of Doppler cooling in optical molas...
Laser cooling processes are theoretically investigated for a cascade scheme of atomic levels where t...
We investigate the region of validity of the semiclassical approach to simulating laser cooling. We ...
We analyze the lowest achievable temperature for a mechanical oscillator coupled with a quantum refr...
We observed a new type of sub-Doppler cooling that employs neither polarization gradients nor magnet...
Sub-Doppler laser cooling requires optical pumping among differently light-shifted ground-state subl...
https://pro.college-de-france.fr/jean.dalibard/publi2/josaB\₈9.pdfWe present two cooling mechanisms ...
We report a 1D study of optical forces on atoms in a two-frequency laser field. The light couples tw...
In this paper we experimentally and theoretically investigate laser cooling of Strontium 88 atoms in...
Laser cooling is a groundbreaking technology that manipulates the light-atom inter-action to decreas...
The authors thank Peter Domokos and Helmut Ritsch for helpful discussionsWe present a mechanism fo...
We have applied the method of single atom trajectories to study the mechanism behind some cooling s...
We present an extensive set of measurements on one-dimensional sub-Doppler cooling and channeling in...
We report computational results for the time evolution of the velocity distribution P(V,t) for two-l...
We present a theoretical analysis of a novel scheme for optical cooling of particles that does not i...
We present a summary of the results of a simple two-level theory of Doppler cooling in optical molas...
Laser cooling processes are theoretically investigated for a cascade scheme of atomic levels where t...
We investigate the region of validity of the semiclassical approach to simulating laser cooling. We ...
We analyze the lowest achievable temperature for a mechanical oscillator coupled with a quantum refr...