Title: Zeeman Slowing W. Phillips, H. Metcalf PRL 48 p569 (1982)
1Zeeman SlowingW. Phillips, H. Metcalf PRL 48
p569 (1982)
2Light Pressure Traping1D and 2D lenses
3Magneto Optic TrapE. Raab et al. PRL 59 p2631
(1987)
3d magnetic field realization Quadrupole
Atoms are pushed to the point with B0 Typical
parameters Density gt1011 atoms/cm3 Up to
gt1010 atoms
4Atoms in a Light FieldDresses States
5Dipole Forcecomparison with trapping of glass
beads
6Molasses Experiment Lett et al. JOSA B6 p2084
(1989)
7Molasses Experimenttemperature vs. turn off
time Lett et al. JOSA B6 p2084 (1989)
8Molasses ExperimenttemperatureLett et al. JOSA
B6 p2084 (1989)
9Molasses Experimentlife time Lett et al. JOSA
B6 p2084 (1989)
10Molasses Theorypolarisation gradients J.
Dalibard, C. Cohen-Tannoudji JOSA B6 p2023 (1989)
11Molasses Theorylight shift, Sisyphus Effect J.
Dalibard, C. Cohen-Tannoudji JOSA B6 p2023
(1989)
12Molasses Theoryforce J. Dalibard, C.
Cohen-Tannoudji JOSA B6 p2023 (1989)
13Molasses ExperimentPolarisation Gradient
CoolingC. Salomon et al. EPL 12 p683 (1990)
S. Chu
S. Chu (Bell Labs 1985)
14Cooling With Stimulated EmissionA. Aspect et al.
PRL 57 p1688 (1986)
15Velocity Selective Coherent Population
TrappingR. Kaiser et al. PRL 61 p826 (1988)
16Raman CoolingM. Kasevich, S. Chu PRL 69 p1741
(1992)