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1. Introduction; 2. Radiative forces; 2.1. The scattering force; 2.2. The dipole force; 2.3. Doppler cooling; 3. Deceleration and cooling of an atomic beam; 3.1. Chirp cooling; 3.2. Zeeman tuning; 3.3. Optical pumping; 4. Traps for neutral atoms; 4.1. Dipole force traps; 4.2. Radiation pressure force traps; 4.3. Magneto-static traps; 5. Sub-Doppler laser cooling; 5.1. Observation of sub-Doppler temperatures; 5.2. New cooling mechanisms; 6. Metrology with cold atoms; 6.1. Atomic fountain clocks; 6.2. Atom interferometers; 7. Coherent manipulation of Bose-Einstein condensates with light; 7.1. The triaxial TOP trap for sodium; 7.2. BEC of sodium in a TOP trap; 7.3. Diffraction of atoms by a standing wave; 7.4. Bragg diffraction of atoms; 7.5. Raman output coupling: Demonstration of a CW atom laser; 8. Nonlinear atom optics with Bose-Einstein condensates; 8.1. Four-wave mixing with matter-waves; 8.2. Quantum phase engineering; 8.3. Solitons in a BEC; 8.4. Observation of solitons in a BEC; 8.5. Quantum atom optics
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