Tunable notch microwave photonic filter based on interferometry of a single low-incoherence source.

Jun Wen,Zhiyao Jia,Difei Shi,Wei Li,Ming Li,Ninghua Zhu

doi:10.1364/ao.58.008039

Tunable notch microwave photonic filter based on interferometry of a single low-incoherence source.

Jun Wen, Zhiyao Jia + Show 4 more

https://doi.org/10.1364/ao.58.008039

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Journal: Applied Optics	Publication Date: Oct 9, 2019
Citations: 2

Affiliation: State Key Laboratory on Integrated Optoelectronics, Chinese Academy of Sciences, Institute of Semiconductors

#Microwave Photonic Filter #Tunable Microwave Photonic Filter #Broadband Optical Source #Optical Source #Low-coherence Source #Tunable Microwave #Proposed Method #Tunable Filter #Tunable Range #Single Source

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We present a method to realize a single-notch microwave photonic filter (MPF) based on interferometry of a single, low-coherence broadband optical source (BOS). Normally, a notch MPF based on low-coherence interferometry requires independent control of two optical sources located in different wavebands. In this work, we use a single BOS to accurately perform destructive interference between a bandpass and an all-pass MPF. A frequency and bandwidth freely tunable single-notch MPF can thus be realized. The proposed method is theoretically analyzed and experimentally demonstrated. A notch depth of more than 30 dB and a continuously tunable frequency range from 2 to 18 GHz was demonstrated in the proof-of-concept experiment.

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Tunable notch microwave photonic filter based on interferometry of a single low-incoherence source.