Cooling to the Ground State of Axial Motion for One Atom Strongly Coupled to an Optical Cavity

A. D. Boozer; A. Boca; R. Miller; T. E. Northup; H. J. Kimble

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Cooling to the Ground State of Axial Motion for One Atom Strongly Coupled to an Optical Cavity

机译：冷却到一个原子强耦合到光腔的轴向运动的基态

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Localization to the ground state of axial motion is demonstrated for a single, trapped atom strongly coupled to the field of a high finesse optical resonator. The axial atomic motion is cooled by way of coherent Raman transitions on the red vibrational sideband. An efficient state detection scheme enabled by strong coupling in cavity QED is used to record the Raman spectrum, from which the state of atomic motion is inferred. We find that the lowest vibrational level of the axial potential with zero-point energy hω_a/2k_B = 13 μK is occupied with probability P_0 approx = 0.95.

机译：对于单个与高强度光学谐振器场强耦合的俘获原子，证明了其轴向运动的基态定位。轴向原子运动通过红色振动边带上的相干拉曼跃迁冷却。通过腔QED中的强耦合实现的有效状态检测方案用于记录拉曼光谱，从中推论出原子运动的状态。我们发现，零点能量hω_a/ 2k_B = 13μK时，轴向电势的最低振动水平以P_0近似= 0.95的概率占据。

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来源
《Physical review letters 》 |2006年第8期| p.083602.1-083602.4| 共4页
作者
A. D. Boozer; A. Boca; R. Miller; T. E. Northup; H. J. Kimble;
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作者单位

Norman Bridge Laboratory of Physics 12-33, California Institute of Technology, Pasadena, California 91125, USA;

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原文格式 PDF
正文语种 eng
中图分类物理学 ;
关键词
cavity quantum electrodynamics; micromasers; quantum information; optical cooling of atoms; trapping;

机译：腔量子电动力学;微激子;量子信息;原子的光学冷却;俘获;

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7. Cooling to the Ground State of Axial Motion for One Atom Strongly Coupled to an Optical Cavity [O] . Boozer A. D., Boca A., Miller R., 2006

机译：冷却到一个原子强耦合到光腔的轴向运动的基态

Cooling to the Ground State of Axial Motion for One Atom Strongly Coupled to an Optical Cavity

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