Amplified slow light beam splitter and 1 s optical memory

Shuo Shen; Xiwei Xu; Yanhong Xiao

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Amplified slow light beam splitter and 1 s optical memory

机译：放大慢光束分束器和1 s光学存储器

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Using atomic motion to coherently spread light information stored in atoms provides a means to manipulate atom-light interactions. We demonstrate light splitting with moving atoms in a paraffin-coated vapor cell by using phase-sensitive degenerate four-wave mixing, or self-rotation. This scheme amplifies the slow light beam splitter signal, and, in the meantime, maintains the phase coherence between the beam-splitter channels. Light storage efficiency in the beam-splitting channel can also be enhanced. Furthermore, we demonstrate an optical memory exceeding 1 s, taking advantage of the gain from self-rotation and an atomic coherence composed of a fast-decaying part and a slow-decaying part. These results should find applications in Optical memory, Optical routers, and atomic coherence control.

机译：使用原子运动相干地散布存储在原子中的光信息提供了一种操纵原子-光相互作用的方法。我们展示了通过使用相敏感的简并四波混合或自旋转，在石蜡涂层的蒸气室中移动原子分裂光。该方案放大了慢光束分离器信号，同时，保持了分束器通道之间的相位相干性。分束通道中的光存储效率也可以提高。此外，我们展示了利用自旋转的增益和由快衰变部分和慢衰变部分组成的原子相干性超过1 s的光学存储器。这些结果将在光存储器，光路由器和原子相干控制中找到应用。

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来源
《Optical engineering 》 |2014年第10期| 102703.1-102703.7| 共7页
作者
Shuo Shen; Xiwei Xu; Yanhong Xiao;
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作者单位

Fudan University, Department of Physics, State Key Laboratory of Surface Physics and Key Laboratory of Micro and Nano-Photonic Structures, Ministry of Education, Shanghai 200433, China;

Fudan University, Department of Physics, State Key Laboratory of Surface Physics and Key Laboratory of Micro and Nano-Photonic Structures, Ministry of Education, Shanghai 200433, China;

Fudan University, Department of Physics, State Key Laboratory of Surface Physics and Key Laboratory of Micro and Nano-Photonic Structures, Ministry of Education, Shanghai 200433, China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
atomic beam splitter; self-rotation; coherence; light storage;

机译：原子分束器自转连贯储光;

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Amplified slow light beam splitter and 1 s optical memory

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