原子法拉第分束器用于空核光子晶体光纤中泵浦简并四波混频产生的光

arXiv: Atomic Physics Pub Date : 2020-12-07 DOI:10.1103/PHYSREVA.103.043501

Ioannis Caltzidis, H. Kübler, T. Pfau, R. Löw, M. A. Zentile

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引用次数: 7

摘要

我们演示了一种原子法拉第二向色分束器，适用于原子源中泵浦简并四波混频的信号和空闲场的空间分离。通过旋转一种模式$90^{\circ}$的偏振面相对于另一种模式$90^{\circ}$的偏振面，随后的偏振分束器将两个频率分离，仅相差13.6 GHz，并在两个输出中实现$(-26.3\pm0.1)$和$(-21.2\pm0.1)$ dB的抑制，相应的传输率为97%和99%。该技术避免了四波混频模式的空间分离，从而为波导实验中提高工艺效率打开了大门。作为一个原理证明，我们通过加载在空心光子晶体光纤中的$^{87}$Rb中的四波混频产生光，并将其与原子法拉第二向色分光器相连接。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Atomic Faraday beam splitter for light generated from pump-degenerate four-wave mixing in a hollow-core photonic crystal fiber

We demonstrate an atomic Faraday dichroic beam splitter suitable to spatially separate signal and idler fields from pump degenerate four-wave mixing in an atomic source. By rotating the plane of polarization of one mode $90^{\circ}$ with respect to the other, a subsequent polarizing beam splitter separates the two frequencies, which differ by only 13.6 GHz, and achieves a suppression of $(-26.3\pm0.1)$ and $(-21.2\pm0.1)$ dB in the two outputs, with a corresponding transmission of 97 and 99 %. This technique avoids the need to use spatial separation of four-wave mixing modes and thus opens the door for the process efficiency to be enhanced in waveguide experiments. As a proof-of-principle we generate light via four-wave mixing in $^{87}$Rb loaded into a hollow-core photonic crystal fiber and interface it with the atomic Faraday dichroic beam splitter.

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arXiv: Atomic Physics

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