Microwave photonic instantaneous frequency measurement with simultaneous parallel operation within a single optical fiber

2010 IEEE MTT-S International Microwave Symposium Pub Date : 2010-05-23 DOI:10.1109/MWSYM.2010.5517207
N. Sarkhosh, H. Emami, L. Bui, A. Mitchell
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引用次数: 5

Abstract

A Microwave photonic system which simultaneously implements multiple parallel IFMs within a single optical fiber is proposed and practically demonstrated. Three optical carriers of different wavelength are modulated by the same RF signal and then differentially delayed. All three carriers are then mixed in a highly nonlinear optical fiber. The mixing products are separated and the optical power of each can be related to the input RF frequency. We demonstrate simultaneous acquisition of two distinct frequency measurement responses over the range from 2–40GHz. This system is all-optical and requires no high-speed electronic components. Avenues for extending the number of simultaneous channels are identified.
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在一根光纤内同时并行操作的微波光子瞬时频率测量
提出了一种在一根光纤内同时实现多个平行ifm的微波光子系统,并进行了实际验证。用相同的射频信号调制三个不同波长的光载波,然后进行差分延时。然后,所有三种载流子混合在高度非线性的光纤中。混合产物被分离,每个混合产物的光功率可以与输入射频频率相关。我们演示了在2-40GHz范围内同时采集两个不同的频率测量响应。该系统是全光学的,不需要高速电子元件。确定了扩大同时信道数量的途径。
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2010 IEEE MTT-S International Microwave Symposium
2010 IEEE MTT-S International Microwave Symposium
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