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    Journals >Acta Photonica Sinica >Volume 51 >Issue 3 >Page 0306008 > Article
    • Acta Photonica Sinica
    • Vol. 51, Issue 3, 0306008 (2022)
    Photon-assisted Instantaneous Frequency Measurement Scheme Based on Stimulated Brillouin Scattering
    Kexin LIU and Na GAO*
    Author Affiliations
  • School of Physics and Electronic Information,Henan Polytechnic University,Jiaozuo ,Henan 454003,China
    • show less
    DOI: 10.3788/gzxb20225103.0306008 Cite this Article
    Kexin LIU, Na GAO. Photon-assisted Instantaneous Frequency Measurement Scheme Based on Stimulated Brillouin Scattering[J]. Acta Photonica Sinica, 2022, 51(3): 0306008 Copy Citation Text show less
    References

    [1] Tao ZHOU, Tao LI, Aiping XIE et al. Application and development of microwave photonics in electronic warfare (Invited). Infrared and Laser Engineering, 50, 20211049(2021).

    [2] Jing LI, Li PEI, Tigang NING et al. Measurement of instantaneous microwave frequency by optical power monitoring based on polarization interference. Journal of Lightwave Technology, 38, 2285-2291(2020).

    [3] Xihua ZOU, Wei PAN, Bin LUO et al. Photonic instantaneous frequency measurement using a single laser source and two quadrature optical filters. IEEE Photonics Technology Letters, 23, 39-41(2011).

    [4] Xihua ZOU, Hao CHI, Jianping YAO. Microwave frequency measurement based on optical power monitoring using a complementary optical filter pair. IEEE Transactions on Microwave Theory and Techniques, 57, 505-511(2009).

    [5] Di WANG, Kun XU, Jian DAI et al. A MZI-based photonic instantaneous microwave frequency measurement simplified by an optical polarizer. Optics Communications, 285, 4055-4058(2012).

    [6] Yun WANG, Juan NI, Hao CHI et al. Photonic instantaneous microwave frequency measurement based on two different phase modulation to intensity modulation conversions. Optics Communications, 284, 3928-3932(2011).

    [7] Jian DAI, Ku XU, Ruimin DUAN et al. Instantaneous frequency measurement based on complementary microwave photonic filters with a shared Mach–Zehnder interferometer. Optics Communications, 284, 5738-5741(2011).

    [8] Ze LI, Bo YANG, Hao CHI et al. Photonic instantaneous measurement of microwave frequency using fiber Bragg grating. Optics Communications, 283, 396-399(2010).

    [9] Chengwu YANG, Ling WANG, Jianguo LIU. Photonic-assisted instantaneous frequency measurement system based on a scalable structure. IEEE Photonics Journal, 11, 1-11(2019).

    [10] Hengyun JIANG, M DAVID, P MATTIA et al. Wide-range, high-precision multiple microwave frequency measurement using a chip-based photonic Brillouin filter. Optica, 3, 30-34(2016).

    [11] Xiang ZHU, Tao JIN, Hao CHI et al. A coherent photonic RF scanning receiver based on a flat optical frequency comb. Optics Communications, 421, 41-45(2018).

    [12] Xiaojun XIE, Yitang DAI, Yu JI et al. Broadband photonic radio-frequency channelization based on a 39-GHz optical frequency comb. IEEE Photonics Technology Letters, 24, 661-663(2012).

    [13] Weiyuan XU, Dan ZHU, Shilong PAN. Coherent photonic radio frequency channelization based on dual coherent optical frequency combs and stimulated Brillouin scattering. Optical Engineering, 55, 046106(2016).

    [14] Xihua ZOU, Wei PAN, Bin LUO et al. Photonic approach for multiple-frequency-component measurement using spectrally sliced incoherent source. Optics Letters, 35, 438-440(2010).

    [15] Xihua ZOU, Wangzhe LI, Wei PAN et al. Photonic-assisted microwave channelizer with improved channel characteristics based on spectrum-controlled stimulated brillouin scattering. IEEE Transactions on Microwave Theory and Techniques, 61, 3470-3478(2013).

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    Kexin LIU, Na GAO. Photon-assisted Instantaneous Frequency Measurement Scheme Based on Stimulated Brillouin Scattering[J]. Acta Photonica Sinica, 2022, 51(3): 0306008
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