实现集体原子自旋的腔量子挤压。

Implementation of cavity squeezing of a collective atomic spin.

机构信息

Department of Physics, MIT-Harvard Center for Ultracold Atoms and Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA.

出版信息

Phys Rev Lett. 2010 Feb 19;104(7):073602. doi: 10.1103/PhysRevLett.104.073602. Epub 2010 Feb 17.

DOI:10.1103/PhysRevLett.104.073602

PMID:20366881

Abstract

We squeeze unconditionally the collective spin of a dilute ensemble of laser-cooled 87Rb atoms using their interaction with a driven optical resonator. The shape and size of the resulting spin uncertainty region are well described by a simple analytical model [M. H. Schleier-Smith, I. D. Leroux, and V. Vuletić, arXiv:0911.3936 [Phys. Rev. A (to be published)]] through 2 orders of magnitude in the effective interaction strength, without free parameters. We deterministically generate states with up to 5.6(6) dB of metrologically relevant spin squeezing on the canonical 87Rb hyperfine clock transition.

摘要

我们使用与驱动光学谐振器的相互作用无条件地挤压稀疏散射冷却 87Rb 原子的集体自旋。通过简单的分析模型 [M. H. Schleier-Smith、I. D. Leroux 和 V. Vuletić，arXiv:0911.3936 [Phys. Rev. A (to be published)]]，可以很好地描述所得自旋不确定度区域的形状和大小，该模型在有效相互作用强度上的两个数量级内没有自由参数。我们在典型的 87Rb 超精细时钟跃迁上确定性地生成了具有高达 5.6(6) dB 的计量相关自旋压缩的状态。

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实现集体原子自旋的腔量子挤压。

Implementation of cavity squeezing of a collective atomic spin.

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实现集体原子自旋的腔量子挤压。

Implementation of cavity squeezing of a collective atomic spin.

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出版信息

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