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H. J. Metcalf, P. Straten, Laser Cooling and Trapping.

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Presentation on theme: "H. J. Metcalf, P. Straten, Laser Cooling and Trapping."— Presentation transcript:

1 H. J. Metcalf, P. Straten, Laser Cooling and Trapping

2 Beam deceleration with photon recoil Absorb a photo to receive momentum kick Spontaneous emission is symmetric Random walk theory assumed Recoil limit

3 A two-photon process: a simultaneous absorption and a stimulated emission by an atom Two counter-propagating beams Resonant excitation condition Linewidth determined by interaction time At 600nm, pulse duration 0.6ms, equivalent to Raman transitions

4 Raman cooling J. Foot, Atomic Physics

5 Using Sodium with hyperfine ground states Atoms were pre-cooled using beam deceleration magneto-optical trap, and 3D polarization gradient molasses. Applied a sequence of Raman pulses with controlled linewidth and line shape. Using Blackman pulse envelope to avoid unwanted off-resonant excitation Achieve T=100nK, less than 1/10 recoil limit Experimental demonstration by S. Chu et al. M. Kasevich, S. Chu, Laser cooling below a photon recoil with 3-level atoms, Phys. Rev. Lett. 69, 12 (1992)

6 In theory one can arbitrarily narrow the linewidth However it takes longer time for narrower linewidth, which limit the Raman cooling in practice. Fundamental limit

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