Acta Optica Sinica, Volume. 44, Issue 20, 2024003(2024)

Multispectral Radar-Infrared Compatible Ultra-Wideband Stealth Metasurface

Jiayun Wang*... Jinfeng Kang, Zeng Qu, Junping Duan and Binzhen Zhang |Show fewer author(s)
Author Affiliations
  • State Key Laboratory of Dynamic Measurement Technology, School of Instrument and Electronics, North University of China, Taiyuan 030051, Shanxi , China
  • show less
    References(32)

    [1] Yang Y, Tian S J, Fang G et al. The compatible performance of three-dimensional SiO2‒ZnO amorphous photonic crystals in adjustable structural color and low infrared emissivity[J]. Optical Materials, 107, 110105(2020).

    [2] Zang Y M, Qian Y, Zhou X L et al. Optical characteristics and fault diagnosis of partial discharge in C4F7N/CO2 gas mixture and SF6 based on novel multispectral microarray detection[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 29, 1079-1086(2022).

    [3] Shen Y, Li J, Lin W F et al. Camouflaged target detection based on snapshot multispectral imaging[J]. Remote Sensing, 13, 3949(2021).

    [4] Gao Z Q, Fan Q, Tian X X et al. An optically transparent broadband metamaterial absorber for radar-infrared bi-stealth[J]. Optical Materials, 112, 110793(2021).

    [5] Ma Y, Shi L H, Wang J B et al. A transparent and flexible metasurface with both low infrared emission and broadband microwave absorption[J]. Journal of Materials Science: Materials in Electronics, 32, 2001-2010(2021).

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

    [10] Wu Y, Zhao Y, Zhou M et al. Ultrabroad microwave absorption ability and infrared stealth property of nano-micro CuS@rGO lightweight aerogels[J]. Nano-Micro Letters, 14, 171(2022).

    [11] Ma W J, Tang C H, He P et al. Morphology-controlled fabrication strategy of hollow mesoporous carbon spheres@f-Fe2O3 for microwave absorption and infrared stealth[J]. ACS Applied Materials & Interfaces, 14, 34985-34996(2022).

    [12] Wei M J, Wang L, Rehman S U et al. Fe3O4/C@SiC nanocomposite microwave absorbing material derived from MIL-101(Fe)@SiC[J]. Journal of the American Ceramic Society, 107, 3290-3300(2024).

    [13] Chen Y M, He W W, Zhou H L et al. Compressible and conductive multi-scale composite aerogel elastomers for electromagnetic wave absorption, energy harvesting, and piezoresistive sensing[J]. Nano Energy, 119, 109100(2024).

    [14] Wang J Y, Yang R C, Tian J P et al. A dual-band absorber with wide-angle and polarization insensitivity[J]. IEEE Antennas and Wireless Propagation Letters, 17, 1242-1246(2018).

    [15] Chen Y T, Xue W R, Zhang J et al. Dynamically tunable infrared ultra-wideband absorber based on vanadium dioxide[J]. Chinese Journal of Lasers, 50, 1913001(2023).

    [16] Pan H, Zhang H F, Tian X L et al. Design, simulation, and analysis of an ultra-broadband polarization-insensitive terahertz metamaterial absorber[J]. Journal of the Optical Society of America B, 38, 95-103(2020).

    [17] Liu T, Cheng X X, Zhou Z G et al. Graphene ultra-broadband perfect absorber with slit structure[J]. Laser & Optoelectronics Progress, 60, 1323001(2023).

    [18] Tian Y, Yin Z F, Zhao X C et al. Multi-polarization selective absorber based on terahertz metasurface[J]. Results in Physics, 54, 107134(2023).

    [19] Gao S, Xu J C, Cao J Q et al. Highly efficient tunable terahertz all-dielectric metasurface absorber based on high mode[J]. Advanced Composites and Hybrid Materials, 6, 116(2023).

    [20] Zhang C L, Wu X Y, Huang C et al. Flexible and transparent microwave‒infrared bistealth structure[J]. Advanced Materials Technologies, 4, 1900063(2019).

    [21] Meng Z, Tian C H, Xu C L et al. Multi-spectral functional metasurface simultaneously with visible transparency, low infrared emissivity and wideband microwave absorption[J]. Infrared Physics & Technology, 110, 103469(2020).

    [22] Min P P, Song Z C, Wang T Y et al. Design strategy of a high-performance multispectral stealth material based on the 3D meta-atom[J]. Photonics Research, 11, 1934-1944(2023).

    [23] Cui Y N, Wang J, Sun H T et al. Visible transparent wideband microwave meta-absorber with designable digital infrared camouflage[J]. Advanced Optical Materials, 12, 2301712(2024).

    [24] Duan Y P, Wang M, Chen W et al. Layered metamaterials with Sierpinski triangular fractal metasurface: compatible stealth for S-band radar and infrared[J]. Materials Today Physics, 38, 101210(2023).

    [25] Liu S J, Wang J Y, Zhang X M et al. Low infrared emissivity and broadband wide-angle microwave absorption integrated bi-functional camouflage metamaterial with a hexagonal patch based metasurface superstrate[J]. Optics Express, 31, 40630-40645(2023).

    [27] Luo H, Xiong Y, Cheng Y Z et al. Optical transparent metamaterial structure for microwave‒infrared-compatible camouflage based on indium tin oxide[J]. Science China Technological Sciences, 66, 2850-2861(2023).

    [28] Zhong S M, Jiang W, Xu P P et al. A radar-infrared bi-stealth structure based on metasurfaces[J]. Applied Physics Letters, 110, 063502(2017).

    [29] Zhong S M, Wu L J, Liu T J et al. Transparent transmission-selective radar-infrared bi-stealth structure[J]. Optics Express, 26, 16466-16476(2018).

    [31] Zhang H B, Zhou P H, Lu H P et al. Resistance selection of high impedance surface absorbers for perfect and broadband absorption[J]. IEEE Transactions on Antennas and Propagation, 61, 976-979(2013).

    [32] Zhou J F, Zhang L, Tuttle G et al. Negative index materials using simple short wire pairs[J]. Physical Review B, 73, 041101(2006).

    Tools

    Get Citation

    Copy Citation Text

    Jiayun Wang, Jinfeng Kang, Zeng Qu, Junping Duan, Binzhen Zhang. Multispectral Radar-Infrared Compatible Ultra-Wideband Stealth Metasurface[J]. Acta Optica Sinica, 2024, 44(20): 2024003

    Download Citation

    EndNote(RIS)BibTexPlain Text
    Save article for my favorites
    Paper Information

    Category: Optics at Surfaces

    Received: Apr. 22, 2024

    Accepted: Jun. 4, 2024

    Published Online: Oct. 16, 2024

    The Author Email: Jiayun Wang (wangjiayun@nuc.edu.cn)

    DOI:10.3788/AOS240885

    CSTR:32393.14.AOS240885

    Topics