[1] Ye J S, Zhang Y, Hane K. Improved first Rayleigh-Sommerfeld method applied to metallic cylindrical focusing micro mirrors[J]. Optics Express, 17, 7348-7360(2009).

[2] Fujita T, Nishihara H, Koyama J. Blazed gratings and Fresnel lenses fabricated by electron-beam lithography[J]. Optics Letters, 7, 578-580(1982).

[3] Faklis D, Michael Morris G. Spectral properties of multiorder diffractive lenses[J]. Applied Optics, 34, 2462-2468(1995).

[4] Bendickson J M, Glytsis E N, Gaylord T K. Metallic surface-relief on-axis and off-axis focusing diffractive cylindrical mirrors[J]. Journal of the Optical Society of America A, 16, 113-130(1999).

[5] Zheludev N I, Kivshar Y S. From metamaterials to metadevices[J]. Nature Materials, 11, 917-924(2012). http://europepmc.org/abstract/MED/23089997

[6] Meinzer N, Barnes W L, Hooper I R. Plasmonic meta-atoms and metasurfaces[J]. Nature Photonics, 8, 889-898(2014).

[7] Yu N F, Capasso F. Flat optics with designer metasurfaces[J]. Nature Materials, 13, 139-150(2014).

[8] Arbabi A, Horie Y, Bagheri M et al. Dielectric metasurfaces for complete control of phase and polarization with subwavelength spatial resolution and high transmission[J]. Nature Nanotechnology, 10, 937-943(2015).

[9] Kruk S, Hopkins B, Kravchenko I I et al. Invited article: broadband highly efficient dielectric metadevices for polarization control[J]. APL Photonics, 1, 030801(2016).

[10] Liu T J. Techniques and application research on airborne multispectral digital camera system[D]. Beijing: University of Chinese Academy of Sciences(2002).

[11] Hou J L. Aeronautical multi-spectral CCD camera[J]. Radio Communications Technology, 18, 57-63(1992).

[12] Yu N, Genevet P, Kats M A et al. Light propagation with phase discontinuities: generalized laws of reflection and refraction[J]. Science, 334, 333-337(2011).

[13] Chen W T, Zhu A Y, Khorasaninejad M et al. Immersion meta-lenses at visible wavelengths for nanoscale imaging[J]. Nano Letters, 17, 3188-3194(2017).

[14] Zheng G X, Mühlenbernd H, Kenney M et al. Metasurface holograms reaching 80% efficiency[J]. Nature Nanotechnology, 10, 308-312(2015).

[15] Pu M B, Li X, Ma X L et al. Catenary optics for achromatic generation of perfect optical angular momentum[J]. Science Advances, 1, e1500396(2015).

[16] Wang Y, Zhang S, Shen Y et al. Manipulation on amplitude of anomalous refraction in staggered terahertz V-shaped metasurface[J]. Acta Optica Sinica, 40, 0713001(2020).

[17] Luo Y, Wang W T, Zhao P J et al. Dual-mode metasurface of polarization-specific focusing and keeping wavefront[J]. Chinese Journal of Lasers, 47, 0301007(2020).

[18] Jiang R, He Y L, Zhang X K et al. Polarization order adjustment of cylindrical vector beams by using two-dimensional dielectric metasurfaces[J]. Chinese Journal of Lasers, 45, 0705001(2018).

[19] Chen B H, Wu P C, Su V C et al. GaN metalens for pixel-level full-color routing at visible light[J]. Nano Letters, 17, 6345-6352(2017). http://europepmc.org/abstract/MED/28892632

[20] Khorasaninejad M, Chen W T, Devlin R C et al. Metalenses at visible wavelengths: Diffraction-limited focusing and subwavelength resolution imaging[J]. Science, 352, 1190-1194(2016).

[21] Wang B, Dong F L, Li Q T et al. Visible-frequency dielectric metasurfaces for multiwavelength achromatic and highly dispersive holograms[J]. Nano Letters, 16, 5235-5240(2016).

[22] Arbabi A, Horie Y, Ball A J et al. Subwavelength-thick lenses with high numerical apertures and large efficiency based on high-contrast transmitarrays[J]. Nature Communications, 6, 7069(2015).