基于增强拉曼散射的光子-原子双模压缩态的实现

邵辉丽; 李栋; 闫雪; 陈丽清; 袁春华

doi:10.7498/aps.63.014202

物理学报

基于增强拉曼散射的光子-原子双模压缩态的实现

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邵辉丽, 李栋, 闫雪, 陈丽清, 袁春华. 2014: 基于增强拉曼散射的光子-原子双模压缩态的实现, 物理学报, null(1): 014202. doi: 10.7498/aps.63.014202

引用本文:

邵辉丽, 李栋, 闫雪, 陈丽清, 袁春华. 2014: 基于增强拉曼散射的光子-原子双模压缩态的实现, 物理学报, null(1): 014202. doi: 10.7498/aps.63.014202

Shao Hui-Li, Li Dong, Yan Xue, Chen Li-Qing, Yuan Chun-Hua. 2014: Generation of two-mo de photon-atom quadrature squeezing based on enhanced raman scattering, Acta Physica Sinica, null(1): 014202. doi: 10.7498/aps.63.014202

Citation:

Shao Hui-Li, Li Dong, Yan Xue, Chen Li-Qing, Yuan Chun-Hua. 2014: Generation of two-mo de photon-atom quadrature squeezing based on enhanced raman scattering, Acta Physica Sinica, null(1): 014202. doi: 10.7498/aps.63.014202

基于增强拉曼散射的光子-原子双模压缩态的实现

华东师范大学光与原子量子研究所，物理系，上海 200241; 上海工程技术大学基础学院物理系，上海 201620
华东师范大学光与原子量子研究所，物理系，上海 200241

Generation of two-mo de photon-atom quadrature squeezing based on enhanced raman scattering

摘要: 拉曼散射过程中利用原子系综中初始制备的自旋激发(原子相干性)，以及注入与原子系综中初始制备的自旋激发相关联的种子光场都可以极大的提高光场频率转换的效率，实现增强拉曼散射。本文理论上计算了增强拉曼散射过程中原子-光场量子界面的正交分量的量子起伏，得到了相干性导致的增强拉曼散射，只能在一定的范围内稍微提高初始光子-原子的压缩度；而关联增强拉曼散射，能够制备很强的光子-原子间的双模压缩。这样强压缩度的光子-原子量子界面，对于利用光场和原子系统实现量子精密测量研究有着非常重要的应用。
- 光子-原子关联 /
- 增强拉曼散射 /
- 双模压缩态 /
- 量子噪声
Abstract: Enhanced Raman scattering can be obtained by the initially prepared atomic spin excitation, or by injecting a seeded light field which is correlated with the initially prepared atomic spin excitation. This paper theoretically calculated the quantum fluctuations of the quadrature components of the two-mode photon-atom quantum interface and found that the enhanced Raman scattering based on coherence can improve the initial photon-atom squeezing slightly in a certain scope, and correlation-enhanced Raman scattering can produce strong two-mode squeezing of photon-atom. Such a strong two-mode squeezed state at the photon-atom interface has very important applications in precision measurement research based on the light field and atomic system.

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基于增强拉曼散射的光子-原子双模压缩态的实现

华东师范大学光与原子量子研究所，物理系，上海 200241; 上海工程技术大学基础学院物理系，上海 201620
华东师范大学光与原子量子研究所，物理系，上海 200241

关键词:

摘要: 拉曼散射过程中利用原子系综中初始制备的自旋激发(原子相干性)，以及注入与原子系综中初始制备的自旋激发相关联的种子光场都可以极大的提高光场频率转换的效率，实现增强拉曼散射。本文理论上计算了增强拉曼散射过程中原子-光场量子界面的正交分量的量子起伏，得到了相干性导致的增强拉曼散射，只能在一定的范围内稍微提高初始光子-原子的压缩度；而关联增强拉曼散射，能够制备很强的光子-原子间的双模压缩。这样强压缩度的光子-原子量子界面，对于利用光场和原子系统实现量子精密测量研究有着非常重要的应用。

English Abstract

Generation of two-mo de photon-atom quadrature squeezing based on enhanced raman scattering

华东师范大学光与原子量子研究所，物理系，上海 200241; 上海工程技术大学基础学院物理系，上海 201620
华东师范大学光与原子量子研究所，物理系，上海 200241

Keywords:

Abstract: Enhanced Raman scattering can be obtained by the initially prepared atomic spin excitation, or by injecting a seeded light field which is correlated with the initially prepared atomic spin excitation. This paper theoretically calculated the quantum fluctuations of the quadrature components of the two-mode photon-atom quantum interface and found that the enhanced Raman scattering based on coherence can improve the initial photon-atom squeezing slightly in a certain scope, and correlation-enhanced Raman scattering can produce strong two-mode squeezing of photon-atom. Such a strong two-mode squeezed state at the photon-atom interface has very important applications in precision measurement research based on the light field and atomic system.

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基于增强拉曼散射的光子-原子双模压缩态的实现

Generation of two-mo de photon-atom quadrature squeezing based on enhanced raman scattering

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基于增强拉曼散射的光子-原子双模压缩态的实现

English Abstract

Generation of two-mo de photon-atom quadrature squeezing based on enhanced raman scattering

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