[1] [1] LI Y, ZHANG D W, WANG Q, et al.. Research progress of sub-wavelength guided-mode resonant filter［J］. Optical Instruments, 2016, 38(2): 185-188. (in Chinese)

[2] [2] SANG T, WANG ZH SH, WU Y G, et al.. Research on guide-mode resonance for sub-wavelength dielectric grating［J］. Acta Photonica Sinica, 2006, 35(5): 641-645. (in Chinese)

[3] [3] DUAN X F, ZHOU G R, HUANG Y Q, et al.. Theoretical analysis and design guideline for focusing subwavelength gratings［J］. Optics Express, 2015, 23(3): 2639-2646.

[4] [4] GAO X M, SHI ZH, LI X, et al.. Multiline resonant filters fashioned with different periodic subwavelength gratings［J］. Optics Letters, 2014, 39(23): 6660-6663.

[5] [5] FOLEY J M, PHILLIPS J D. Normal incidence narrowband transmission filtering capabilities using symmetry-protected modes of a subwavelength, dielectric grating［J］. Optics Letters, 2015, 40(11): 2637-2640.

[6] [6] CAO ZH L, LU ZH W, LI F Y, et al.. Design consideration of two-dimensional anti-reflective subwavelength periodic gratings［J］. Opt. Precision Eng., 2002, 10(6): 537-541. (in Chinese)

[7] [7] WANG W, GAO X M, FANG X J, et al.. Transmission properties of Fabry–Pérot filter consisting of silicon-based high-contrast gratings［J］. IEEE Photonics Journal, 2016, 8(1): 1-14.

[8] [8] WANG W, ZHU G Y, LIU Q F, et al.. Angle- and polarization-dependent spectral characteristics of circular grating filters［J］. Optics Express, 2016, 24(10): 11033-11042.

[9] [9] LUO ZH Y, ZHANG G J, ZHU R D, et al.. Polarizing grating color filters with large acceptance angle and high transmittance［J］. Applied Optics, 2016, 55(1): 70-76.

[10] [10] BUET X, DARAN E, BELHARET D, et al.. High angular tolerance and reflectivity with narrow bandwidth cavity-resonator-integrated guided-mode resonance filter［J］. Optics Express, 2012, 20(8): 9322-9327.

[11] [11] ZHENG H Y, HU F R. Design of narrowband guided-mode resonance filters in visible wavelength region［J］. Laser Technology, 2016, 40(1):118-121. (in Chinese)

[12] [12] KINTAKA K, MAJIMA T, HATANAKA K, et al.. Polarization-independent guided-mode resonance filter with cross-integrated waveguide resonators［J］. Optics Letters, 2012, 37(15): 3264-3266.

[13] [13] DUAN X F, HUANG Y Q, REN X M, et al.. High-efficiency InGaAs/InP photodetector incorporating SOI-based concentric circular subwavelength gratings［J］. IEEE Photonics Technology Letters, 2012, 24(10): 863-865.

[14] [14] MA CH L, HUANG Y Q, REN X M. High-numerical-aperture high-reflectivity focusing reflectors using concentric circular high-contrast gratings［J］. Applied Optics, 2015, 54(4): 973-978.

[15] [15] WANG ZH H. Influence of duty cycle on resonant wavelength in mode resonance filter［C］. Shanghai Laser Society 2007 Annual Conference, 2007: 213-230.

[16] [16] LERMAN G M, GRAJOWER M, YANAI A, et al.. Light transmission through a circular metallic grating under broadband radial and azimuthal polarization illumination［J］. Optics Letters, 2011, 36(20): 3972-3974.

[17] [17] DUAN X F, ZHOU G R, HUANG Y Q, et al.. Theoretical analysis and design guideline for focusing subwavelength gratings［J］. Optics Express, 2015, 23(3): 2639-2646.

[18] [18] WANG X D, XU X D, LIU Y, et al.. Ion beam etching of HfO2 film［J］. Opt. Precision Eng., 2004, 12(5): 454-458. (in Chinese)

[19] [19] MAGNUSSON R. Spectrally dense comb-like filters fashioned with thick guided-mode resonant gratings［J］. Optics Letters, 2012, 37(18): 3792-3794.

[20] [20] NIRAULA M, YOON J W, MAGNUSSON R. Mode-coupling mechanisms of resonant transmission filters［J］. Optics Express, 2014, 22(21): 25817-25829.

[21] [21] FEHREMBACH A L, GAUTHIER-LAFAYE O, YU K C S, et al.. Measurement and modeling of 2D hexagonal resonant-grating filter performance［J］. Journal of the Optical Society of America A, 2010, 27(7): 1535-1540.

[22] [22] PARK C H, YOON Y T, LEE S S. Polarization-independent visible wavelength filter incorporating a symmetric metal-dielectric resonant structure［J］. Optics Express, 2012, 20(21): 23769-23777.