Elastic and inelastic evanescent-wave mirrors for cold atoms

Comptes Rendus de l'Académie des Sciences - Series IV - Physics-Astrophysics Pub Date : 2001-06-01 DOI:10.1016/S1296-2147(01)01203-3

D. Voigt, B.T. Wolschrijn, R.A. Cornelussen, R. Jansen, N. Bhattacharya, H.B. van Linden van den Heuvell, R.J.C. Spreeuw

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引用次数: 4

Abstract

We report on experiments on an evanescent-wave mirror for cold ⁸⁷Rb atoms. Measurements of the bouncing fraction show the importance of the Van der Waals attraction to the surface. We have directly observed radiation pressure parallel to the surface, exerted on the atoms by the evanescent-wave mirror. We analyze the radiation pressure by imaging the motion of the atom cloud after the bounce. The number of photon recoils ranges from 2 to 31. This is independent of laser power, inversely proportional to the detuning and proportional to the evanescent-wave decay length. By operating the mirror on an open transition, we have also observed atoms that bounce inelastically due to a spontaneous Raman transition. The observed distributions consist of a dense peak at the minimum velocity and a long tail of faster atoms, showing that the transition is a stochastic process with a strong preference to occur near the turning point of the bounce.

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冷原子用弹性和非弹性倏逝波镜

我们报告了在冷87Rb原子的倏逝波反射镜上的实验。对弹跳分数的测量表明了范德华引力对表面的重要性。我们已经直接观察到由倏逝波镜施加在原子上的、平行于表面的辐射压力。我们通过成像原子云在弹跳后的运动来分析辐射压力。光子反冲的次数从2到31不等。这与激光功率无关，与失谐成反比，与倏逝波衰减长度成正比。通过在开放跃迁上操作反射镜，我们还观察到由于自发拉曼跃迁而产生非弹性弹跳的原子。观察到的分布由最小速度处的密集峰和较快原子的长尾组成，表明跃迁是一个随机过程，强烈倾向于发生在弹跳的转折点附近。

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Comptes Rendus de l'Académie des Sciences - Series IV - Physics-Astrophysics

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