[1] Chen Z Y, Zhou T, Zhong X, et al. Stable downlinks for wideband radio frequencies in distributed noncooperative system［J］. J. of Lightwave Technol., 2018, 36(19): 4514-4518.

[2] Capmany J, Novak D. Microwave photonics combines two worlds［J］. Nature Photon., 2007, 1(6): 319-330.

[3] Ghelfi P, Laghezza F, Scotti F, et al. A fully photonics-based coherent radar system［J］. Nature, 2014, 507(7492): 341-345.

[4] Vilcot A. Microwave Photonics: From Components toApplications and Systems［M］. Kluwer Academic.

[5] Lee C H. Microwave Photonics［M］. Taylor and Francis Group, 2007.

[6] Marti J, Capmany J. Microwave photonics and radio-over-fiber research［J］. IEEE Microwave Magazine, 2009, 10(4): 96-105.

[7] Schadt D G. Effect of amplifier spacing on four-wave mixing in multi-channel coherent communication［J］. Electron. Lett., 1991, 27: 1805-1807.

[8] Chen Z Y, Yan L S, Pan W, et al. One-to-nine multicasting of RZ-DPSK based on cascaded four-wave mixing in a highly nonlinear fiber without stimulated Brillouin scattering suppression［J］. IEEE Photon. Technol. Lett., 2012, 24(20): 1882-1885.

[9] Liu X, Chraplyvy A R, Winzer P J, et al. Phase-conjugated twin waves for communication beyond the Kerr nonlinearity limit［J］. Nature Photonics, 2013, 109: 1-9.

[10] Suresh H R, Vinitha V, Girinath N, et al. Suppression of four wave mixing effect in DWDM system［J］. Materials Today: Proceeding, 2021, 45: 2707-2712.

[11] Huszaník T, Turn J, Ovseník L. On mitigation of four-wave mixing in high capacity ultra-DWDM system［C］// Proc. of 20th Inter. Carpathian Control Conf., 2019: 1-4.

[12] Agrawal G P. Nonlinear Fiber Optics (Fourth Edition)［M］. Academic Press, 2013.

[13] Agrawal G P. Applications of Nonlinear Fiber Optics (Second Edition)［M］. Academic Press, 2020.

[14] Chen Z Y, Yan L S, Pan W, et al. A transmission model of analog signals in photonic links［J］. IEEE Photon. J., 2014, 6(6): 7903813.