Time-Bin Entangled Photons using an all Fiber Optic MZI Incorporating a Fiber Ring Resonator

2007 IEEE International Conference on Research, Innovation and Vision for the Future Pub Date : 2007-03-05 DOI:10.1109/RIVF.2007.369154

P. Yupapin, S. Suchat, P. Phiphithirankarn

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Abstract

A new technique of an entangled photon pair generation using an all fiber optic scheme is presented. The proposed system is consisted of a fiber optic Mach-Zehnder interferometer (MZI) incorporating with a fiber optic ring resonator. The Kerr nonlinearity effect in the fiber ring resonator is exploited for the generation of two independent squeezed beams. The advantage of such a system is that it requires a simple arrangement without any optical pumping part and bulky optical components. Polarized light pulse trains are launched randomly into a MZI which one part of them is delayed in the longer path. The output pulses from both arms of the MZI are entered into a nonlinear fiber optic ring resonator. Where the superpositions of light pulses in a nonlinear fiber optics ring resonator are randomly occurred which is formed the entangled photon pairs. A polarization controller controls polarization states of light pulses while circulating in the ring resonator. The entangled photons are seen on the avalanche photo-detector, which is shown in good agreement with the previous works.

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使用含光纤环形谐振器的全光纤MZI的时间bin纠缠光子

提出了一种利用全光纤方案产生纠缠光子对的新技术。该系统由一个光纤马赫-曾德干涉仪和一个光纤环形谐振器组成。利用光纤环形谐振腔中的克尔非线性效应产生两个独立的压缩光束。这种系统的优点是它需要一个简单的安排，没有任何光泵浦部分和笨重的光学元件。将偏振光脉冲序列随机发射到MZI中，其中一部分在较长的路径上被延迟。从MZI的两个臂的输出脉冲进入一个非线性光纤环形谐振器。在非线性光纤环形谐振腔中，光脉冲的叠加是随机发生的，形成纠缠光子对。偏振控制器控制光脉冲在环形谐振器中循环时的偏振状态。在雪崩光电探测器上观测到纠缠光子，与前人的研究结果吻合较好。

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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2007 IEEE International Conference on Research, Innovation and Vision for the Future

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