Compact and low-latency instantaneous frequency measurement using 38 cm bismuth-oxide fiber and fiber Bragg gratings

Mable P. Fok

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Compact and low-latency instantaneous frequency measurement using 38 cm bismuth-oxide fiber and fiber Bragg gratings

机译：使用38 cm氧化铋光纤和光纤Bragg光栅进行紧凑，低延迟的瞬时频率测量

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We demonstrated a compact and low-latency photonic approach for broadband RF signal frequency measurement. The photonic approach does not require high-speed electronics for gigahertz RF signal measurement. Frequency-to-intensity mapping is achieved based on a two-tap finite-impulse-response filter architecture, where the time delay between signals is provided by fiber Bragg grating array. With four-wave mixing (FWM) as an optical broadband mixer, sinusoid frequency response is transferred to a DC output, where FWM is achieved in a 38 cm bismuth-oxide fiber. Thus, the resultant signal does not consist of any high-frequency component and no high-speed oscilloscope is needed for the measurement.

机译：我们展示了一种紧凑且低延迟的光子方法，用于宽带RF信号频率测量。光子方法不需要高速电子设备即可进行千兆赫兹RF信号测量。频率到强度的映射是基于两抽头有限冲激响应滤波器架构实现的，其中信号之间的时间延迟由光纤布拉格光栅阵列提供。通过将四波混频（FWM）用作光学宽带混频器，将正弦频率响应传输到DC输出，在该输出中，在38厘米的氧化铋纤维中实现FWM。因此，结果信号不包含任何高频分量，因此不需要高速示波器进行测量。

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《Applied optics》 |2013年第23期|共4页
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Mable P. Fok;
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1. Compact and low-latency instantaneous frequency measurement using 38 cm bismuth-oxide fiber and fiber Bragg gratings [J] . Mable P. Fok Applied optics . 2013,第23期

机译：使用38 cm氧化铋光纤和光纤Bragg光栅进行紧凑，低延迟的瞬时频率测量
2. Photonic instantaneous measurement of microwave frequency using fiber Bragg grating [J] . Ze Li, Bo Yang, Hao Chi, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2010,第3期

机译：光纤布拉格光栅光子瞬时测量微波频率
3. Simultaneous strain and temperature measurement using a compact photonic crystal fiber inter-modal interferometer and a fiber Bragg grating [J] . Bo Dong, Jianzhong Hao, Chin-yi Liaw, Applied optics . 2010,第32期

机译：使用紧凑型光子晶体光纤模态干涉仪和光纤布拉格光栅同时测量应变和温度
4. Radiophotonic method for instantaneous frequency measurement based on principles of “frequency-amplitude” conversion in Fiber Bragg grating and additional frequency separation [C] . Alexander A. Ivanov, Oleg G. Morozov, Vladimir A. Andreev, International Conference on Antenna Theory and Techniques . 2017

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Compact and low-latency instantaneous frequency measurement using 38 cm bismuth-oxide fiber and fiber Bragg gratings

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