| [01] | Bowen Zeng, Chenxia Li, Bo Fang, Zhi Hong, Xufeng Jing*. Flexible tuning of multifocal holographic imaging based on electronically controlled metasurfaces. Photonics Research, 2024, 12(1), 61-69.
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| [02] | Peng Xu, Jun Lou, Chenxia Li, Xufeng Jing*. Inverse design of a metasurface based on a deep tandem neural network. Journal of the Optical Society of America B, 2023, 41(2). A1-A5.
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| [03] | Fuyi Cui, Xin Huang, Qiaoyi Zhou*, Yijie Tong, Fuihai Liu, Ying Tang, Xiangru Meng, Chenxia Li, Bo Fang, Xufeng Jing*. Magnetic toroidal dipole resonance terahertz wave biosensor based on all-silicon metasurface. Optics and Lasers in Engineering, 2024, 177, 108128.
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| [04] | Wenlong Huang, Chenxia Li, Bo Fang, Jianfeng Xu, Fuhai Liu, Lizhen Xu, Ying Tang, Zhi Hong, Xufeng Jing*. Research progress of terahertz wave dynamic control of digital coded metasurfaces. Optics and Lasers in Engineering, 2024, 174, 107977.
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| [05] | Xin Huang, Fumei Chai, Yunyun Yang, Bo Fang, Chenxia Li, Ying Tang, Jianfeng Xu, Fuhai Liu, Lizhen Xu, Liang Chen, Zhi Hong, Xufeng Jing*. Biosensor based on all-dielectric mechanically tunable woven metasurface. Optics & Laser Technology, 2024, 171, 110383.
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| [06] | Chenxia Li, Zhengdiao Zheng, Lan Ke, Bo Fang, Zhi Hong, Mingzhou Yu*, Xufeng Jing*. Terahertz vector beams generated by rectangular multilayer transmission metasurface. Optics & Laser Technology, 2024, 169, 110143.
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| [07] | Jieshuang Qi, Chenxia Li, Yu Xia, Bo Fang, Zhi Hong, Liang Chen, Xufeng Jing*. Research progress of biomolecular detection based on metasurfaces. Infrared Physics & Technology, 2024, 136, 105111.
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| [08] | Yunyun Yang, Fumei Chai, Xin Huang, Tianqi Zhao, Peng Zhang, Chenxia Li, Bo Fang, Zhi Hong, Mingzhou Yu*, Xufeng Jing*. Terahertz wave biomolecular sensor based on all-dielectric high Q metasurface. Optics & Laser Technology, 2024, 169, 110106.
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| [09] | Tianqi Zhao, Peng Zhang, Bo Fang, Chenxia Li, Zhi Hong, Ying Tang, Mingzhou Yu*, Xufeng Jing*. Scattered beam control of encoded metasurface based on near-field coupling effects of elements. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2024, 305, 123535.
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| [10] | Peng Chen, Bo Fang, Jianmin Li, Zhen Wang, Chenxia Li, Xufeng Jing*. Multi-Focus Additive Metalens Based on Complex Coding Principle. Journal of Lightwave Technology, 2023, 41(23): 7121-7127.
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| [11] | Jie Jiang, Bo Fang, Chenxia Li, Zhi Hong, Xufeng Jing*. Improvement of terahertz beam modulation efficiency for baseless all-dielectric coded gratings. Photonics Research, 2023, 11(10), 1738-1750.
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| [12] | Lan Ke, Chenxia Li*, Simeng Zhang, Bo Fang, Ying Tang, Zhi Hong, Xufeng Jing*. Tight focusing field of cylindrical vector beams based on cascaded low-refractive index metamaterials. Nanophotonics, 2023, 12(18): 3563-3578.
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| [13] | Lan Ke, Chenxia Li*, Simeng Zhang, Bo Fang, Ying Tang, Zhi Hong, Xufeng Jing*. Flexible Control of Phase and Polarization based on All‐Dielectric Metamaterials. Advanced Quantum Technologies, 2023, 6(9). 2300124.
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| [14] | Chenxia Li, Jie Jiang, Bo Fang, Zhi Hong, Xufeng Jing*. Direction control of electromagnetic beam scattering by physically stacked cascaded coding metasurfaces. Journal of the Optical Society of America B, 2023, 40(12), 3022-3031.
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| [15] | Yixin Liu, Chenxia Li, Bo Fang, Liang Chen, Jianfeng Xu, Fuhai Liu, Lizhen Xu, Xiao Li, Ying Tang, Zhi Hong, and Xufeng Jing*. Research Progress in Tunable Metamaterial Absorbers. Advanced Photonics Research, 2023, 5(2), 2300258.
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| [16] | Qingyu Wang, Chenxia Li, Bo Fang, Lan Ke, Jianxun Lu, Xiaoli Ma, Zhi Hong, and Xufeng Jing*. Flexible and Independent Control of Asymmetric Vortex Beams Based on Spin Multiplexing all Dielectric Metasurface. Journal of Lightwave Technology, 2023, 41(23): 7098-7104.
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| [17] | Zhexi Yang, Tianqi Zhao, Peng Zhang, Chenxia Li, Bo Fang, Zhi Hong, Mingzhou Yu, and Xufeng Jing*. All-dielectric tunable zero-refractive index metamaterials based on phase change materials. Reviews on Advanced Materials Science, 2023, 62(1), 20230161.
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| [18] | Bowen Zeng, Chenxia Li∗, Haoliang Cheng, Bo Fang, Jianxun Lu, Xiaoli Ma, Le Wang,ZhiHong, Xufeng Jing*. Anisotropic programmable metasurface beam splitter based on diodereal-time control. Optics and Lasers in Engineering, 2023, 169.107723.
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| [19] | Peng Zhang, Qingyu Wang, Tianqi Zhao, Bo Fang, Chenxia Li, Le Wang, Zhi Hong, Xufeng Jing*. Generation of Vortex Beams via All-Dielectric Spin-Multiplexed Coding Metamaterials. Journal of Lightwave Technology, 2023, 41(23): 7148-7154.
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| [20] | Simeng Zhang, Chenxia Li∗, Lan Ke, Bo Fang, Jianxun Lu, Xiaoli Ma, Xufeng Jing*. All-dielectric terahertz wave metagrating lens based on 3D printing low refractive index material. Infrared Physics & Technology, 2023, 133,104775.
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| [21] | Tianqi Zhao, Peng Zhang, Bo Fang, Chenxia Li∗, Zhi Hong, and Xufeng Jing*. Transmitted Electromagnetic Beam Steering of Pyramid All‐Dielectric Encoding Surface Microstructure. Advanced Quantum Technologies, 2023, 6(11),2300167.
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| [22] | Peng Zhang, Bo Fang, Tianqi Zhao, Chenxia Li, Changyu Shen, Zhi Hong, and Xufeng Jing*. Terahertz Wave Tunable Metalens Based on Phase Change Material Coded Metasurface. Journal of Lightwave Technology, 2023, 41, 7162-7168.
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| [23] | Peng Zhang, Changchang Zhang, Yunyun Yang a, Lan Ke, Bo Fang, Chenxia Li, Zhi Hong, Xufeng Jing*. Polarization sensitive terahertz all dielectric continuous trapezoid metasurface beam splitter. Infrared Physics and Technology, 2023, 130, 104604.
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| [24] | Peng Zhang, Bo Fang, Tianqi Zhao, Lan Ke, Xiaoli Ma, Chenxia Li, Zhi Hong, Xufeng Jing*. Amplitude and phase independent modulation based on transmission-type metasurfaces. Results in Physics, 2023, 46, 106328.
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| [25] | Simeng Zhang, Chenxia Li, Lan Ke, Bo Fang, Jianxun Lu, Xiaoli Ma, Xufeng Jing*, All-dielectric terahertz wave metagrating lens based on 3D printing low refractive indexmaterial, Infrared Physics and Technology, 2023, 133, 104775.
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| [26] | Peng Zhang, Lan Ke, Bo Fang, Tianqi Zhao, Chenxia Li, Zhi Hong, Xufeng Jing*, Flexibly control of vortex beams based on all-dielectric Pancharatnam-Berry phase transmission encoding metamaterials, Results in Physics, 2023, 51, 106668.
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| [27] | Yu Liang, Yongxing Jin, Yiwei Ni, Zhengming Zong, Chenxia Li, Xufeng Jing*, Tight Focus Vector Light Field of Hybrid Double Circularly Polarized Beams, IEEE Photonics Technology Letters, 2023, 35, 124-127.
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| [28] | Xin Huang, Chenxia Li, Bo Fang, Jianxun Lu, Xiaoli Ma, Zhi Hong, Xufeng Jing*, Improved biomolecular detection sensitivity based on concave metamaterial structure, Infrared Physics and Technology, 2023, 128, 104524.
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| [29] | Peng Chen, Bo Fang, Jianmin Li, Zhen Wang, Jinhui Cai, Lan Ke, Wenkang Huang, Yanyan Dong, Chenxia Li, Xufeng Jing*, Flexible control of multi-focus with geometric phase encoded metalens based on the complex digital addition principle, Optics and Lasers in Engineering, 2022,161,107332.
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| [30] | Xufeng Jing*, Guihong Qin, Peng Zhang, Broadband silicon-based tunable metamaterial microfluidic sensor, Photonics Research, 2022,10, 2876-2885.
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| [31] | Yu Liang, Yanyan Dong, Yongxing Jin, Lan Ke, Chenxia Li, Xufeng Jing*, Terahertz vortex beams generated by the ring-arranged multilayer transmissive metasurfaces, Infrared Physics and Technology, 2022,127,104441.
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| [32] | Guihong Qin, Yanyan Dong, Peng Zhang, Jianjun Liu, Chenxia Li, Wenkang Huang, Zhi Hong, Changyu Shen, Xufeng Jing*, Broadband absorber coupled with anti-reflection inverted pyramid type all-dielectric microstructure, Optics and Lasers in Engineering, 2022,160,107288.
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| [33] | Siqi Shi, Kai Yang, Yiwei Ni, Zhengming Zong, Lan Ke, Chenxia LI, Xufeng Jing*, Oblique incident achromatic cloaking based on all-dielectric multilayer frame metasurfaces, Applied Physics A, 2022,128,1085.
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| [34] | Qingyu Wang, Chenxia Li, Bo Fang and Xufeng Jing*, Multi-function reflective vector light fields generated by all-dielectric encoding metasurface, Materials, 2022,15,8260.
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| [35] | Kai Yang, Siqi Shi, Chengxia Li, Wenkang Huang, and Xufeng Jing*, Broadband stealth devices based on encoded metamaterials, Applied Optics, 2022, 61,10171-10177.
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| [36] | Yi Chen, Ruisi Li, Wenkang Huang, Yinglai Wu, Jianxun Lu, Lan Ke, Chenxia Li, and Xufeng Jing*, Electromagnetic multi-beam steering of matrix pattern-encoded metasurfaces, Laser Physics Letters, 2022,19, 116206.
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| [37] | Haoliang Cheng, Bo Fang, Wenkang Huang, Ruisi Li, Changyu Shen, Lan Ke, Xufeng Jing*, Chenxia Li, and Zhi Hong. Far-field steering of beams based on dynamic encoding metasurface. Optics and Laser Technology, 2022, 156, 108520.
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| [38] | Bo Fang, Dantian Feng, Xufeng Jing*, Chenxia Li, Haiyong Gan, Yingwei He, Jinhui Cai, Zhi Hong. All dielectric terahertz carpet cloaking by phase compensation metasurfaces. Laser Physics Letters, 2021, 18(12), 126201.
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| [39] | Fumei Chai, Bo Fang, Chenxia Li, Zhi Hong, Xufeng Jing*. Highly sensitive biosensor based on an all-dielectric asymmetric ring metasurface. Applied Optics, 2022, 61(6), 1349.
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| [40] | Heqing Guo, Chengyang Li, Xiaoyan Tang, Chenxia Li, Changyu Shen, Lijiang Shi, Zhi Hong, Xufeng Jing*. Multi-angle forward scattering of all-dielectric coded nanoparticles. Optics Communications, 2022, 503, 127453.
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| [41] | Yiyun Li, Bo Fang, Yongxing Jin, Lijiang Shi, Chenxia Li, Jianqiang Qian, Zhi Hong, Xufeng Jing*. Multi-function scattering beam regulation based on the superposition method of geometric phase coded metasurface sequences. Optics Communications, 2022, 502, 127405.
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| [42] | Bo Fang, Dantian Feng, Peng Chen, Lijiang Shi, Jinhui Cai, Jianmin Li, Chenxia Li, Zhi Hong, Xufeng Jing*. Broadband Cross-Circular Polarization Carpet Cloaking based on a Phase Change Material Metasurface in the Mid-infrared Region. Frontiers Of Physics, 2022, 17, 53502.
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| [43] | Yiyun Li, Bo Fang, Kai Yang, Yongxing Jin, Chenxia Li, Zhi Hong, Jianxun Lu, Yinglai Wu, Xufeng Jing*. Independent adjustment of the transmission amplitude and phase based on the double-sided all-dielectric encoding metasurface. Optics Communications, 2022, 515, 128181.
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| [44] | Tianqi Zhao, Qingyu Wang, Meng Li, Bo Fang, Peng Chen, Jianxun Lu, Chenxia Li, Xufeng Jing, Cross-Polarization Carpet Cloaking Based on Polarization Conversion Metasurfaces, IEEE Sensors Journal, 2022, 22(7), 6509–6517.
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| [45] | Changchang Zhang, Chenxia Li, Bo Fang, Jianjun Liu, Zhi Hong, Xufeng Jing, Transmission terahertz power beam splitter based on a single-layer metal metasurface, Applied Optics, 2022, 61(14), 4153.
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| [46] | Tianqi Zhao, Bo Fang, Wenkang Huang, Jianxun Lu, Yinglai Wu, Changyu Shen, Chenxia Li, Xufeng Jing, Omnidirectional rectangular beam steering for terahertz waves based on Pancharatnam-Berry phase encoding metasurfaces, Surfaces and Interfaces, 2022, 31, 102021.
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| [47] | Yu Liang, Yongxing Jin*, Jianxun Lu, Yinglai Wu, Chenxia Li, Xufeng Jing, Vortex beam generator based on single-layer porous metasurface, Optics Communications, 2022, 519, 128407.
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| [48] | Tianqi Zhao, Bo Fang, Peng Chen, Youhuang Ke, Zhe Kong, Changyu Shen, Chenxia Li, and Xufeng Jing, High Efficiency Flexible Control of Wave Beams Based on Addition and Subtraction Operations on All Dielectric Reflection Metasurfaces, IEEE Sensors Journal, 2022, 22(5), 4057–4068.
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| [49] | Xufeng Jing*, Xiaoyan Tang, Ying Tian, Zhe Kong, Chenxia Li, Changyu Shen, Zhi Hong, Enhancement of Diffraction Efficiency Based on the Addition Principle of Coded Digital Gratings, Journal of Lightwave Technology, 2022, 40(1), 136–142.
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| [50] | Pengwei Zhou, Bo Fang, Tianqi Zhao, Xufeng Jing*, Improvement of beam shaping on a metasurface by eliminating the interaction between coding units, Applied Optics, 2022, 61(16), 4900.
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| [51] | Xiaoyan Tang, Chenxia Li, Haiyong Gan, Yingwei He, Xufeng Jing*, Bo Fang, Zhi Hong. Enhancement of transmission efficiency on Pancharatnam−Berry geometric phase encoding metasurfaces. Annalen der Physik, 2021, 533(2), 2000494.
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| [52] | Bo Fang, Youhuang Ke, Li Jiang, Jinhui Cai, Haiyong Gan, Meina Zhang, Chenxia Li, ZhiHong, Xufeng Jing*. Continuous scattering angle control of transmission terahertz wave by convolution manipulation of all-dielectric encoding metasurfaces. Applied Physics A, 2020, 126(8), 1-14.
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| [53] | Ying Tian, Xufeng Jing*, Haiyong Gan, Chenxia Li, Zhi Hong. Free control of far-field scattering angle of transmission terahertz wave using multilayer split-ring resonators’ metasurfaces. Frontiers of Physics, 2020, 15(6), 1-8.
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| [54] | Tianzi Luo, Xufeng Jing*, Haiyong Gan, Chenxia Li, Zhi Hong. Wideband near-zero-index metamaterials created by using a supercell microstructure in the terahertz range. Laser Physics Letters, 2020, 17(12), 126203.
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| [55] | Xufeng Jing, Dantian Feng, Ying Tian, Meng Li, Chenfei Chu, Chenxia Li, Yingwei He, Haiyong Gan, Zhi Hong. Design of two invisibility cloaks using transmissive and reflective metamaterial-based multilayer frame microstructures. Optics Express, 2020, 28(24), 35528-35539.
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| [56] | Tianzi Luo, Chenxia Li, Haiyong Gan, Zhi Hong, Xufeng Jing*. Transmission and reflection cloaking by using a zero-refractive-index photonic crystal in the microwave region. Applied Optics, 2021, 60(24), 7492-7499.
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| [57] | Yan Shi, Meng Li, Xincui Gui, Chenxia Li, Xufeng Jing*, Zhi Hong. High-efficiency transmissive invisibility cloaking based on all-dielectric multilayer frame structure metasurfaces. Applied Optics, 2021, 60(13), 3909-3916.
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| [58] | Yan Shi, Xufeng Jing*, Chenxia Li, Zhi Hong. Advanced Photonics Metasurfaces: Design, Fabrication, and Applications. Frontiers in Physics, 2021, 9, 694972.
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| [59] | Tianqi Zhao, Tianzi Luo, Bo Fang, Lijiang Shi, Yongxing Jin, Pengwei Zhou, DongYao, Chenxia Li, Xufeng Jing*, Zhi Hong. Terahertz Dual-Band Near-Zero Effective Index Metamaterial Based on Double-Sided Metal Microstructure, Journal of Russian Laser Research, 2021, 42(5), 586-597.
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| [60] | Chengyang Li, Yiyun Li, Bo Fang, Chenxia Li, Xufeng Jing*, Zhi Hong. Angle control of far-field scattering based on all dielectric transmissive geometric phase metasurface in near-infrared region, Laser Physics, 2021, 31(11), 116202.
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| [61] | Bo Fang, Dantian Feng, Xufeng Jing*, Chenxia Li, Haiyong Gan, Yingwei He, Jinhui Cai, Zhi Hong. All dielectric terahertz carpet cloaking by phase compensation metasurfaces, Laser Physics Letters, 2021, 18(12), 126201.
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| [62] | Tian Lu, Dantian Feng, Bo Fang, Pengwei Zhou, DongYao, Xufeng Jing*, Chenxia Li, Haiyong Gan, Yingwei He, Jinhui Cai, Zhi Hong. Efficient carpet invisibility cloaking with dielectric resonant metasurfaces in terahertz region, Laser Physics Letters, 2021, 18(2), 026201.
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| [63] | Tianzi Luo, Xufeng Jing*, Haiyong Gan, Yingwei He, Chenxia Li, Zhi Hong. A three-dimensional polarization independent invisibility cloak by using multiband zero refraction metamaterials, Laser Physics, 2021, 31(11), 116204.
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| [64] | Tianqi Zhao, Xufeng Jing*, Xiaoyan Tang, Xun Bie, Tianzi Luo, Haiyong Gan, Yingwei He, Chenxia Li, Zhi Hong. Manipulation of wave scattering by Fourier convolution operations with Pancharatnam-Berry coding metasurface, Optics and Lasers in Engineering, 2021, 141, 106556.
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| [65] | Xufeng Jing, YiNuo Xui, Haiyong Gan*, YingWei He, High refractive index metamaterials by using higher order modes resonances of hollow cylindrical nanostructure in visible region, IEEE Access, 2019, 7, 144945-144956.
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| [66] | Bo Fang, Youhuang Ke, Li Jiang, Jinhui Cai, Haiyong Gan, Meina Zhang, Chenxia Li, ZhiHong, Xufeng Jing*, Continuous scattering angle control of transmission terahertz wave by convolution manipulation of all-dielectric encoding metasurfaces, Applied Physics A, 2020, 126(8), 1-14.
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| [67] | Ying Tian, Xufeng Jing*, Haiyong Gan, Chenxia Li, Zhi Hong, Free control of far-field scattering angle of transmission terahertz wave using multilayer split-ring resonators’ metasurfaces, Frontiers of Physics, 2020, 15(6), 1-8.
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| [68] | Xufeng Jing, YouHuang kei, Ying Tian, Haiyong Gan*, YingWei He, ChenXia Li, Zhi Hong, Manipulation of terahertz wave based on three-layer transmissive Pancharatnam-Berry phase metasurface, IEEE Access, 2020, 8, 164795-164806.
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| [69] | Li Jiang, Chengfei Chu, Bo Fang, Meina Zhang, Haiyong Gan, Chenxia Li, Xufeng Jing* and Zhi Hong, Multi-wavelength carpet cloaking based on an ultrathin single layer metamaterial microstructure, Laser Physics Letters, 2020, 17(6), 066202.
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| [70] | Tianzi Luo, Xufeng Jing*, Haiyong Gan, Chenxia Li and Zhi Hong, Wideband near-zero-index metamaterials created by using a supercell microstructure in the terahertz range, Laser Physics Letters, 2020, 17(12), 126203.
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| [71] | Li Jiang, Bo Fang, Zhigang Yan, Chenxia Li, Haiyong Gan, Yingwei He, Zhi Hong, Xufeng Jing*, Broadband and wide angle perfect reflection by super periodic cubes metamaterials in terahertz region, Microelectronic Engineering, 2020, 223, 111216.
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| [72] | Li Jiang, Bo Fang, Zhigang Yan, Chenxia Li, Jipeng Fu, Haiyong Gan, Zhi Hong, Xufeng Jing*, Improvement of unidirectional scattering characteristics based on multiple nanospheres array, Microwave and Optical Technology Letters, 2020, 62(6), 2405-2414.
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| [73] | Bo Fang, Zhigang Yan, Jing Fan, Cenke Qi, Haiyong Gan, Yingwei He, Chenxia Li, Zhi Hong, Xufeng Jing*, Highly efficient beam control of transmitted terahertz wave based on all dielectric encoding metasurface, Optics Communications, 2020, 458, 124720.
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| [74] | Li Jiang, Bo Fang, Zhigang Yan, Haiyong Gan, Chenxia Li, Meina Zhang, Zhi Hong, Xufeng Jing*, Bandwidth-enhanced carpet cloak by using a phase-gradient metasurface with a multilayer unit cell in terahertz range, Optics Communications, 2020, 471, 125827.
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| [75] | Xufeng Jing, DanTian Feng, Ying Tian, Meng Li, ChengFei Chu, ChenXia Li, YingWei He, HaiYong Gan*, Zhi Hong, Design of two invisibility cloaks using transmissive and reflective metamaterial-based multilayer frame microstructures, Optics Express, 2020, 28(24), 35528-35539.
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| [76] | Ying Tian, XuFeng Jing*, Hao Yu, Haiyong Gan, ChenXia Li, Zhi Hong, Manipulation of the arbitrary scattering angle based on all-dielectric transmissive Pancharatnam Berry phase coding metasurfaces in the visible range, Optics Express, 2020, 28(21), 32107-32123.
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| [77] | Li Jiang, Bo Fang, Zhigang Yan, Jing Fan, Cenke Qi, Jianjun Liu, Yingwei He, Chenxia Li, Xufeng Jing*, Haiyong Gan, Zhi Hong, Terahertz high and near-zero refractive index metamaterials by double layer metal ring microstructure, Optics & Laser Technology, 2020, 123, 105949.
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| [78] | Bo Fang, Chenxia Li, Xufeng Jing*, "Enhancement of unidirectional scattering through magnetic and electric resonances by nanodisks' chain", Optical Review, 2019, 26(1), 131-142.
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| [79] | Bo Fang, Chenxia Li, Yandong Peng, Xufeng Jing*, "Broadband terahertz reflector through electric and magnetic resonances by all dielectric cylinder microstructure", Microwave and Optical Technology Letters, 2018, 61(6), 131-142.
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| [80] | Bo Fang, Zhiyu Cai, Yandong Peng, Chenxia Li, Zhi Hong, Xufeng Jing*, "Realization of ultrahigh refractive index in terahertz region by multiple layers coupled metal ring metamaterials", Journal of Electromagnetic Waves and Applications, 2019, 33(11), 1375-1390.
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| [81] | Bo Fang, Boya Li, Yandong Peng, Chenxia Li, Zhi Hong, Xufeng Jing*, "Polarization-independent multiband metamaterials absorber by fundamental cavity mode of multilayer microstructure", Microwave and Optical Technology Letters, 2019, 61(10), 2385-2391.
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| [82] | Bo Fang, Xun Bie, Zhigang Yan, Haiyong Gan, Chenxia Li, Zhi Hong, Xufeng Jing*, "Manipulation of main lobe number and azimuth angle of terahertz-transmitted beams by matrix-form-coding metasurface", Applied Physics A-Materials Science & Processing, 2019, 125(9), 651.
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| [83] | Meng Li, Shuang Han, Haiyong Gan, Chenxia Li, Jianjun Liu, Zhi Hong, Xufeng Jing*, "Improvement of Wide-Angle Response for Terahertz Carpet Cloaking by Using a Metasurface with Multilayer Microstructure", Joumal of Infrared, Miimeter, and Terahert Waves, 2019, 40(9), 917-928.
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| [84] | Xufeng Jing*, Chengfei Chu, Chenxia Li, Haiyong Gan, Yingwei He, Xincui Gui, Zhi Hong, "Enhancement of bandwidth and angle response of metasurface cloaking through adding antireflective moth-eye-like microstructure", Optics Express, 2019, 27(15), 21766-21778.
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| [85] | Ying Tian, Xufeng Jing*, Haiyong Gan, Chenxia Li, Zhi Hong, "Free control of far-field scattering angle of transmission terahertz wave using multilayer split-ring resonators' metasurfaces", Frontiers Of Physics, 2020, 15(6), 962502.
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| [86] | Li Jiang, Bo Fang, Zhigang Yan, Chenxia Li, Haiyong Gan, Yingwei He, Zhi Hong, Xufeng Jing* "Broadband and wide angle perfect reflection by super periodic cubes metamaterials in terahertz region", Microelectronic Engineering, 2020, 223, 111216.
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| [87] | Bo Fang, Zhigang Yan, Jing Fan, Cenke Qi, Haiyong Gan, Yingwei He, Chenxia Li, Zhi Hong, Xufeng Jing*, "Highly efficient beam control of transmitted terahertz wave based on all dielectric encoding metasurface", Optics Communications, 2020, 458, 124720.
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| [88] | Li Jiang, Bo Fang, Zhigang Yan, Haiyong Gan, Chenxia Li, Meina Zhang, Zhi Hong, Xufeng Jing*, "Bandwidth-enhanced carpet cloak by using a phase-gradient metasurface with a multilayer unit cell in terahertz range",Optics Communications, 2020, 471, 125827.
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| [89] | Xufeng Jing*, Dantian Feng, Ying Tian, Meng Li, Chengfei Chu, Chenxia Li, Yingwei He, Haiyong Gan,Zhi Hong, "Design of two invisibility cloaks using transmissive and reflective metamaterial-based multilayer frame microstructures", Optics Express, 2020, 28(24), 35528-35539.
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| [90] | Ying Tang, Xufeng Jing*, Hao Yu, Haiyong Gan, Chenxia Li, Zhi Hong, "Manipulation of the arbitrary scattering angle based on all-dielectric transmissive Pancharatnam Berry phase coding metasurfaces in the visible range", Optics Express, 2020, 28(21), 32107-32103.
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| [91] | Li Jiang, Bo Fang, Zhigang Yan, Jing Fan, Cenke Qi, Jianjun Liu, Yingwei He, Chenxia Li, Xufeng Jing*, Haiyong Gan, Zhi Hong, "Terahertz high and near-zero refractive index metamaterials by double layer metal ring microstructure", Optics and Laser Technology, 2020, 123, 105949.
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| [92] | Xiaoyan Tang, Chenxia Li, Haiong Gan, Yingwei He, Xufeng Jing*, Bo Fan, Zhi Hong, "Enhancement of Transmission Eficiency on Pancharatnam-Berry Geometric Phase Encoding Metasurfaces", Annalen Der Physik, 2020, 533(2), 2000494.
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| [93] | Tianqi Zhao, Xufeng Jing*, Xiaoyan Tang, Xun Bie, Tianzi Luo, Haiyong Gan, Yingwei He, Chenxia Li, Zhi Hong, "Manipulation of wave scattering by Fourier convolution operations with Pancharatnam-Berry coding metasurface", Optics and Lasers in Engineering, 2021, 141, 106556.
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| [94] | Xufeng Jing*,Xincui Gui, Pengwei Zhou, Zhi Hong, "Physical explanation of Fabry-Pérot cavity for broadband bilayer metamaterials polarization converter", Journal of Lightwave Technology, 2018, Digital Object Identifier: 10.1109/JLT.2018.2808339.
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| [95] | Xufeng Jing, Shangzhong Jin*, Junchao Zhang, Ying Tian, Pei Liang, Haibo Shu, Le Wang, and Qianmin Dong, "Enhancement of the accuracy of the simplified modal method for designing a subwavelength triangular grooves grating", Optics Letters, 2013,38(1), 10-12.
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| [96] | Xufeng Jing*, Jianyong Ma, Shijie Liu, Yunxia Jin, Hongbo He, Jianda Shao,and Zhengxiu Fan, "Analysis and design of transmittance for an antireflective surface microstructure", Optics Express, 2009, 17(18), 16119–16134.
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| [97] | Xufeng Jing*, Jianda Shao, Junchao Zhang, Yunxia Jin, Hongbo He, and Zhengxiu Fan, "Calculation of femtosecond pulse laser induced damage threshold for broadband antireflective microstructure arrays", Optics Express, 2009, 17(26), 24137–24152.
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| [98] | Xufeng Jing*, Xincui Gui, Rui Xia, Zhi Hong, "Ultrabroadband Unnaturally High Effective Refractive Index Metamaterials in the Terahertz Region", IEEE Photonics Journal, 2017,9(1), 5900107.
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| [99] | Xufeng Jing*, Rui Xia, Weimin Wang, Ying Tian, and Zhi Hong, "Determination of the effective constitutive parameters of bianisotropic planar metamaterials in the terahertz region", Journal of the Optical Society of America A, 2016,33, 954-961.
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| [100] | Ruixia, Xufeng Jing*, Xincui Gui, Ying Tian, "Broadband terahertz half-wave plate based on anisotropic polarization conversion metamaterials", Optics Materials Express, 2017, 7(3), 977-988.
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| [101] | Xincui Gui, Xufeng Jing*, and Zhi Hong, "Ultrabroadband Perfect Reflectors by All-Dielectric Single-layer Super Cell Metamaterial", IEEE Photonics Technology Letters, 2018, (Accept).
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| [102] | Tian Ying, Xufeng Jing *, Li Bingpeng, Li Pengcheng, Li Yinyan, Lei Ruoshan, Zhang Junjie, Xu Shiqing. Synthesis, theoretical analysis, andcharacterization of highly Er3+ dopedfluoroaluminate–tellurite glass with 2.7μmemission. Optical Materials Express, 2016,6, 3274-3285.
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| [103] | Xufeng Jing*, Qiufeng Ye, Zhi Hong, Dongshuo Zhu, and Guohua Shi, "Broadband electromagnetic dipole scattering by coupled multiple nanospheres", Superlattices & Microstructures,2017,111,830-840.
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| [104] | Xufeng Jing*, Rui Xia, Xincui Gui, Weimin Wang, Ying Tian, Dongshuo Zhu, and Guohua Shi, "Design of ultrahigh refractive index metamaterials in the terahertz regime", Superlattices & Microstructures, 2017,109,716-724.
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| [105] | Xufeng Jing*, Weimin Wang, Rui Xia, Jingyin Zhao, Ying Tian, and Zhi Hong, "Manipulation of dual band ultrahigh index metamaterials in the terahertz region", Applied Optics, 2016, 55(31),8743-8751.
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| [106] | Xufeng Jing*, Junchao Zhang,Ying Tian, and Shangzhong Jin, "Improvement of the validity of the simplified modal method for designing a subwavelength dielectric transmission grating ", Applied Optics, 2014, 53(2),259-268.
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| [107] | Xufeng Jing*, Junchao Zhang,Shangzhong Jin, Pei Liang,and Ying Tian, "Design of highly efficient transmission gratings with deep etched triangular grooves",Applied Optics, 2012, 51(33),7920-7933.
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| [108] | Xufeng Jing*, Shangzhong Jin, Ying Tian, Pei Liang, Le Wang, and Qianmin Dong, "Analysis of the transmission characteristics of an internal reflection microstructure grating", Journal of Modern Optics, 2012, 59(20),1772-1785.
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| [109] | Xufeng Jing*, Shangzhong Jin, Ying Tian, Pei Liang, Qianmin Dong,and Le Wang, "Analysis of the sinusoidal nanopatterning grating structure", Optics & Laser Technology, 2013, 48(6),160-166.
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| [110] | Xufeng Jing*, Chee Leong Tan, Chan Il Yeo , Jang Sung Jun, and Yong Tak Lee, "Transmittance design of internal reflection triangular-groove grating at large dimension domain", Optics & Lasers in Engineering, 2013, 51(4),402-409.
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| [111] | Xufeng Jing*, Ying Tian, Pei Liang, Le Wang, Qianmin Dong, and Shangzhong Jin, "Enhancing light extraction from tapered internal reflection microstructure", Optik-International Journal for Light and Electron Optics, 2013, 124(19),3839-3841.
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| [112] | Xufeng Jing*, Jianpeng Wang, Yunxia Jin,Hongbo He,Jianda Shao,and Zhengxiu Fan, "Applied validity of effortless method for design of sinusoidal surface microstructure", Applied Surface Science, 2010, 256(9),2775-2780.
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| [113] | Xufeng Jing*, Ying Tian, Junchao Zhang, Shunli Chen, Yunxia Jin, Jianda Shao, and Zhengxiu Fan, "Modeling validity of femtosecond laser breakdown in wide bandgap dielectrics", Applied Surface Science, 2012, 258(10),4741-4749.
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| [114] | Xufeng Jing*, Jianda Shao, Yunxia Jin, and Zhengxiu Fan, "Near-field distribution of broadband antireflective nanostructure arrays", Optik - International Journal for Light and Electron Optics, 2012, 123(6),527-533.
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| [115] | Xufeng Jing*, Ying Tian, Junling Han, Jianyong Ma, Yunxia Jin,Jianda Shao, and Zhengxiu Fan, "Polarization effect of femtosecond pulse breakdown in subwavelength antireflective relief grating", Optics Communications, 2011, 284(18),4220-4224.
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| [116] | Xufeng Jing*, and Yunxia Jin, "Transmittance analysis of diffraction phase grating ", Applied Optics, 2011, 50(9),C11-C18.
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| [117] | Huihui Zhu, Xufeng Jing*, and Pengwei Zhou, "Strong dipole and higher multi-pole Mie resonance modes with all-dielectric nanoring metasurfaces structure", Superlattices and Microstructures, 2018,113,592-599.
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| [118] | Xincui Gui, Xufeng Jing*, Pengwei Zhou, Jianjun Liu, and Zhi Hong,"Terahertz multiband ultrahigh index metamaterials by bilayer metallic grating structure",Applied Physics B, 2018, (Accept).
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| [119] | Fang Bo, Xufeng Jing*, Qiufeng, Ye, Jinhui Cai, and Pengwei Zhou, “Broadband electromagnetic dipole resonance by the coupling effect of multiple dielectric nanocylinders”, Applied Sciences, 2018, 8(1), 60.
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| [120] | Xincui Gui, Xufeng Jing*, Jianjun Liu, Pengwei Zhou,and Zhi Hong, "Broadband polarization-independent two-dimensionally isotropic ultrahigh index metamaterials", Infrared Physics & Technology,2018,89,174-180.
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| [121] | Weimin Wang, Xufeng Jing*, Jingyin Zhao,Yinyan Li,Ying Tian, "Improvement of accuracy of simple methods for design and analysis of a blazed phase grating microstructure" , Optica Applicata , 2017, 47(2),183-198.
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| [122] | Rui Xia, Xufeng Jing*, Huihui Zhu,Weimin Wang, Ying Tian,and Zhi Hong, "Broadband linear polarization conversion based on the coupling of bilayer metamaterials in the terahertz region" , Optics Communications, 2017, 383,310-315.
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| [123] | Jingyin Zhao, Xufeng Jing*, Weimin Wang, Ying Tian, Dongshuo Zhu, and Guohua Shi, "Steady method to retrieve effective electromagnetic parameters of bianisotropic metamaterials at one incident direction in the terahertz region", Optics & Laser Technology, 2017, 95,56-62.
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