[1] B W Li, D Qi, X Wang et al. Enhanced spectra selectivity of solar absorber film with Ti/Si3N4 photonic structures. Materials Letters, 201, 5-8(2017).

[2] D Qi, Y Cheng, X Wang et al. Multi-layer composite structure covered polytetrafluoroethylene for visible-infrared-radar spectral compatibility. Journal of Physics D: Applied Physics, 50, 505108(2017).

[3] Xin-fei WANG, Dong-qing LIU, Liang PENG et al. Research progress on spectrally selective radiation infrared stealth materials. Journal of Aeronautical Materials, 41, 1-13(2021).

[4] Shuai NIU, Chang YANG, Hui-Cong CHANG et al. An ultralight broadband radar and thermal infrared compatible stealth structure based on metamaterials. Journal of Infrared and Millimeter Waves, 41, 745-750(2022).

[5] K H Wen, T C Han, H P Lu et al. Experimental demonstration of an ultra-thin radar-infrared bi-stealth rasorber. Optics Express, 29, 8872-8879(2021).

[6] C L Xu, S B Qu, J F Wang et al. Dual atmospheric windows infrared stealth research based on frequency selective surface. Journal of Infrared and Millimeter Waves, 38, 315-319(2019).

[7] Rui-Rong ZHANG, Gui-Hua QIU, Jian-Long HAN et al. Preparation and infrared stealth properties of three-dimensional ordered photonic crystals. Journal of Infrared and Millimeter Waves, 36, 739-743(2017).

[8] Y Ma, J B Wang, L H Shi et al. Ultra-wideband, optically transparent, and flexible microwave metasurface absorber. Optical Materials Express, 11, 2206-2218(2021).

[9] B Liu, J M Shi, J K Zhang et al. Infrared stealth performance analysis of photonic crystal with high heat dissipation. Optical Materials, 111, 110689(2021).

[10] S Chalimah, Y Yao, N Ikeda et al. Mid-infrared angle-resolved spectral characteristics of photonic crystal slabs for application in surface-emitting quantum cascade lasers. Journal of Nonlinear Optical Physics & Materials, 31, 2250017(2022).

[11] Q Yuan, J Jiang, Y Li et al. The compatible method of designing the transparent ultra-broadband radar absorber with low infrared emissivity. Infrared Physics and Technology, 123, 104114(2022).

[12] E Rephaeli, A Raman, S Fan. Ultrabroadband photonic structures to achieve high-performance daytime radiative cooling. Nano Letters, 13, 1457-1461(2013).

[13] M M Hossain, B Jia, M Gu. A metamaterial emitter for highly efficient radiative cooling. Advanced Optical Materials, 3, 1047-1051(2015).

[14] J K Zhang, J M Shi, D P Zhao et al. Realization of compatible stealth material for infrared, laser and radar based on one-dimensional doping-structure photonic crystals. Infrared Physics & Technology, 85, 62-65(2017).

[15] J K Zhang, D P Zhao, Z S Chen et al. One dimensional photonic crystal based multilayer film with low IR and visible signatures. Optical Materials, 91, 261-267(2019).

[16] T Kim, J Y Bae, N Lee et al. Hierarchical metamaterials for multispectral camouflage of infrared and microwaves. Advanced Functional Materials, 29, 1807319(2019).

[17] L Peng, D Liu, H Cheng et al. A multilayer film based selective thermal emitter for infrared stealth technology. Advanced Optical Materials, 6, 1801006(2018).

[18] L Peng, D Liu, H Cheng. Ultrathin continuous silver film for efficient infrared emission. Materials Today Communications, 20, 100592(2019).

[19] Yi YI, Lianwen DENG, Heng LUO et al. Design of infrared and laser band compatible camouflage structure based on photonic crystals. Journal of Central South University (Science and Technology), 48, 2966-2971(2017).

[20] L Wang, W H Wang, L Y Wang et al. Study on fine structure and optical response characteristics of wing scales of Papilio paris. Journal of Optics, 51, 874-883(2022).