基于光电子振荡器的光子辅助任意微波信号生成技术

SPIE/COS Photonics Asia Pub Date : 2023-11-28 DOI:10.1117/12.2687597

Md. Danish Nadeem, S. Raghuwanshi, Rajnish Raj, Ritesh Kumar, Fei Liu, Santosh Kumar

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引用次数: 0

摘要

借助光电振荡器（OEO），我们可以用低相噪微波光子信号实现高频率。本文提出了一种基于外部调制器和色散元件的光电振荡器，它具有与光子滤波器类似的选频特性，即π相移光纤布拉格光栅（π PS-FBG），其固定中心频率为 1550nm。通过改变光载波信号的波长，我们可以调整 OEO 的振荡频率。π PS-FBG 反射信号通过长度分别为 0.1 千米、0.2 千米和 0.4 千米的平行连接单模光纤。我们使用为 1550 nm 至 1555 nm 波长设计的 π PS-FBG 滤波器，观察到相应的振荡频率在 4.63 GHz 至 40.17 GHz 之间。我们对振荡频率进行了观测。在模拟结果的帮助下，我们对整个模型进行了理论分析和验证。

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Photonic assisted arbitrary microwave signal generation based on opto-electronic oscillator

We can achieve a high frequency with a low-phase-noise microwave photonics signal with the help of an optoelectronic oscillator (OEO). In this paper, we propose an OEO based on an external modulator and a dispersive component that provides frequency selection properties similar to those of the photonic filter, i.e. π phase-shifted fiber Bragg grating (π PS-FBG), which has a fixed center frequency of 1550nm. By changing the wavelength of an optical carrier signal, we can tune the oscillating frequency of the OEO. The π PS-FBG reflected signal was passed through parallelly connected single-mode fibers of 0.1 Km, 0.2 Km, and 0.4 Km length. An extra delay in the loop is provided for locking the oscillating frequency. we use π PS-FBG filters designed for the wavelengths 1550 nm to 1555 nm and the corresponding frequency of oscillation was observed between 4.63 GHz and 40.17 GHz. We make observations of the oscillating frequency. With the help of simulated results, the overall model has been theoretically analyzed and verified.

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SPIE/COS Photonics Asia

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