Coherent transfer of photon momentum by adiabatic following in a dark state

Quantum Optics: Journal of The European Optical Society Part B Pub Date : 1994-08-01 DOI:10.1088/0954-8998/6/4/016
L. Goldner, C. Gerz, R. Spreeuw, S. Rolston, C. Westbrook, W. Phillips, P. Marte, P. Zoller
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引用次数: 13

Abstract

We demonstrate a new technique for the mechanical manipulation of atoms with light that may be used to deflect or split an atomic beam. This technique depends on the existence of an internal superposition state of the atom that is 'dark' to resonant excitation by a particular light field. An atom in a dark state may adiabatically follow a slowly varying light field in such a way that both the internal state and the atom's momentum are changed. Because the dark state never absorbs or fluoresces, the atomic coherence, necessary for atom interferometry, is preserved. We use laser-cooled Cs atoms to demonstrate the transfer of 8 photon momenta from the slowly varying laser field to the atom.
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暗态中光子动量的绝热跟随相干传递
我们展示了一种用光对原子进行机械操纵的新技术,这种技术可以用来偏转或分裂原子束。这种技术依赖于原子内部叠加态的存在,这种叠加态对特定光场的共振激发是“暗”的。处于暗态的原子可以绝热地跟随缓慢变化的光场,从而使原子的内部状态和动量都发生变化。由于暗态从不吸收或发出荧光,原子干涉测量所必需的原子相干性得以保留。我们用激光冷却的Cs原子来证明8个光子动量从缓慢变化的激光场转移到原子。
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Quantum Optics: Journal of The European Optical Society Part B
Quantum Optics: Journal of The European Optical Society Part B
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