[1] David A. Principle application of Electronic Warfare[M]. Beijing: House of Electronics Industry, 2011.
[2] David L Adamy. Electronic Warfare: EW101[M]. Beijing: House of Electronics Industry, 2009.
[3] S Han, L Chen, Z Xu, et al. Large-scale antenna systems with hybrid analog and digital beam forming for millimeter wave 5G. IEEE Communications Magazine, 53, 186-194(2015).
[4] J P Yao. Microwave photonics. J Lightwave Technol, 27, 314-355(2009).
[5] Z Y Chen, T Zhou, X Zhong, et al. Stable downlinks for wideband radio frequencies in distributed noncooperative system. IEEE J Lightw Technol, 36, 4514-4518(2018).
[6] Z Y Chen, L S Yan, Y Pan, et al. Use of polarization freedom beyond polarization-division multiplexing to support high-speed and spectral-efficient data transmission. Light: Science & Applications, 6, e16207(2017).
[7] Z Y Chen, L S Yan, W Pan, et al. SFDR enhancement in analog photonic links by simultaneous compensation for dispersion and nonlinearity. Optical Express, 21, 20999-21009(2013).
[8] S L Pan, Y M Zhang. Key technologies and microwave photonics radar. Science & Technology Review, 35, 36-52(2017).
[9] X W Ye, F Z Zhang, S L Pan. Compact optical true time delay beam former for a 2D phased array antenna using tunable dispersive elements. Optics Lett, 41, 3956-3959(2016).
[10] T Zhou, B H Fan, J X Chen. Analysis of transmission characteristics of UWB signal using optical beam forming. Semiconductor Optoelectronics, 31, 451-455(2010).
[11] C R Doerr, L Chen, D Vermeulen. Silicon photonics broadband modulation-based isolator. Optics Express, 22, 4493-4498(2014).
[12] P X Li, W Pan, X H Zou, et al. Image-free microwave photonic down-conversion approach for fiber-optic antenna remoting. IEEE Journal of Quantum Electronics, 52, 1-16(2015).
[13] Y C Shen, N C Harris, S Skirlo, et al. Deep learning with coherent nanophotonic circuits. Nature Photonics, 11, 441-446(2017).
[14] M B He, M Y Xu, Y X Ren, et al. High-performance hybrid silicon and lithium niobate Mach-Zehnder modulators for 100 Gbit s−1 and beyond. Nature Photonics, 13, 359-364(2019).
[15] Z Y Chen, J Gu, T Zhou, et al. Technology progress and development trend of integrated microwave photonics in broadband information systems. Vacuum Electronics, 1-5(2019).
[16] P Ghelfi, F Laghezza, F Scotti, et al. A fully photonics-based coherent radar system. Nature, 507, 341-345(2014).
[17] P Ghelfi, F Laghezza, F Scotti, et al. Photonics for radars operating on multiple coherent bands. Journal of Lightwave Technology, 34, 500-507(2016).
[18] F Zhang, Q Guo, Z Wang, et al. Photonics-based broadband radar for high- resolution and real- time inverse synthetic aperture imaging. Optics Express, 25, 16274-16281(2017).