[01] | Fang, Bin*; Wang, Zhizhang; Li, Yantao; Ji, Jitao; Xi, Kelei; Cheng, Qingqing; Shu, Fangzhou; Jin, Zhongwei; Hong, Zhi; Zhan, Chunlian, Spin-decoupled meta-coupler empowered multiplexing and multifunction of guided wave radiation ,Photonics Research 11, 2194(2023)
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[02] | Ke, Lan; Li, Chenxia; Zhang, Simeng; Fang, Bo; Tang, Ying; Hong, Zhi; Jing, Xufeng*, Tight focusing field of cylindrical vector beams based on cascaded low-refractive index metamaterials ,Nanophotonics 12, 3563(2023).
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[03] | Fang, Bin; Shu, Fangzhou; Wang, Zhizhang; Ji, Jitao; Jin, Zhongwei; Hong, Zhi; Shen, Changyu; Cheng, Qingqing; Li, Tao*, On-chip non-uniform geometric metasurface for multi-channel wavefront manipulations ,Opt. Lett. 48, 3119(2023).
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[04] | Pengfei Wang, Fengyan He, Jianjun Liu, Fangzhou Shu, Bin Fang, Tingting Lang, Xufeng Jing, and Zhi Hong*, Ultra-high-Q resonances in terahertz all-silicon metasurfaces based on bound states in the continuum ,Photonics Research 10, 2743(2022).
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[05] | Pan, Gui-Ming*; Yang, Li-Feng; Shu, Fang-Zhou; Meng, Yan-Long; Hong, Zhi; Yang, Zhong-Jian, Tailoring magnetic dipole emission by coupling to magnetic plasmonic anapole states ,Photonics Research 10, 2032(2022).
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[06] | Zhang, Dong-Qin; Tao, Yi; Pan, Gui-Ming; Jin, Zhong-Wei; Fang, Bin; Hong, Zhi; Shu, Fang-Zhou*, switchable transmissive and reflective metadevices based on the phase transition of vanadium dioxide ,Opt. Lett. 47, 673(2022).
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[07] | Fang, B; Feng, DT; Chen, P; Shi, LJ; Cai, JH; Li, JM; Li, CX; Hong, Z; Jing, XF*, Broadband cross-circular polarization carpet cloaking based on a phase change material metasurface in the mid-infrared region ,Front. of Phys. 17, 53502(2022)
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[08] | Xiangjun Li, Jie Yin, Jianjun Liu, Fangzhou Shu, Tingting Lang, Xufeng Jing, Zhi Hong*, Resonant transparency of a planar anapole metamaterial at terahertz frequencies ,Photon. Research 9, 125(2021).
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[09] | Zihao Wang, Lingling Chen, Xiangjun Li, Tingting Lang, Xufeng Jing, and Zhi Hong*, Analogue of electromagnetically induced transparency with ultra-narrow bandwidth in a silicon terahertz metasurface ,Opt. Mater. Express 11(7), 1943 (2021)
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[10] | Yang Yue, Fengyan He, Lingling Chen, Fangzhou Shu, Xufeng Jing, and Zhi Hong*, Analogue of electromagnetically induced transparency in a metal-dielectric bilayer terahertz metamaterial ,Opt. Express 29(14), 21810-21819 (2021).
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[11] | Fengyan He, Jianjun Liu, Guiming Pan, Fangzhou Shu, Xufeng Jing and Zhi Hong*, Analogue of Electromagnetically Induced Transparency in an All-Dielectric Double-Layer Metasurface Based on Bound States in the Continuum ,Nanomater. 11, 2343(2021).
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[12] | Xin Luo, Xiangjun Li, Tingting Lang, Xufeng Jing, and Zhi Hong*, Excitation of high Q toroidal dipole resonance in an all-dielectric metasurface ,Opt. Mater. Express 10, 358 (2020).
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[13] | Fengyan He, Bingxin Han, Xiangjun Li, Tingting Lang, Xufeng Jing, and Zhi Hong*, Analogue of electromagnetically induced transparency with high-Q factor in metal-dielectric metamaterials based on bright-bright mode coupling ,Opt. Express 27, 37590(2019).
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[14] | Jinyan Diao, Bingxin Han, Jie Yin, Xiangjun Li, Tingting Lang, and Zhi Hong*, Analogue of Electromagnetically Induced Transparency in an S-shaped All-dielectric Metasurface ,IEEE Photonics J. 11, 4601110(2019).
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[15] | Bingxin Han, Xiangjun Li, Chuanshuai Sui, Jinyan Diao, Xufeng Jing, and Zhi Hong*,Analog of electromagnetically induced transparency in an E-shaped all-dielectric metasurface based on toroidal dipolar response ,Opt. Mater. Express 8, 2197(2018).
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[16] | Yanhui Wang, Xiangjun Li, Tingting Lang, Xufeng Jing, and Zhi Hong*, Multiband guided-mode resonance filter in bilayer asymmetric metallic gratings ,Opt. Laser Tech. 103, 135-141(2018)
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[17] | Chuanshuai Sui, Xiangjun Li, Tingting Lang, Xufeng Jing, Jianjun Liu, and Zhi Hong*, High Q-factor resonance in a symmetric array of all-dielectric bars ,Applied Science 2018, 8, 161/app8020161
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[18] | Chuanshuai Sui, Bingxin Han, Tingting Lang, Xiangjun Li, Xufeng Jing, and Zhi Hong*, Electromagnetically induced transparency in an all-dielectric metamaterial-waveguide with large group index ,IEEE Photon. J. 9(4), 4600708(2017).
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[19] | Ting Bu, Kejian Chen*, Hong Liu, Jianjun Liu, Zhi Hong, and Songlin Zhuang, Location-dependent metamaterials in terahertz range for reconfiguration purposes ,Photon. Research 4, 122(2016)
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[20] | 孙雅茹, 史同璐, 刘建军 ,洪治*. 太赫兹超材料类EIT谐振无标记生物传感. 光学学报 36, 0328001(2016).
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[21] | Chen Tao, Liu Pingan, Liu Jianjun, and Hong Zhi*, A terahertz photonic crystal cavity with high Q-factors ,Appl. Phys. B 115, 105-109 (2014)
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[22] | 史同璐,刘建军,洪治*,基于光子混频的可调谐连续太赫兹波辐射系统,中国激光 41, 0411001(2014)
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[23] | Tao Chen, Zhanghua Han, Jianjun Liu, and Zhi Hong*, Terahertz gas sensing based on a simple one-dimensional photonic crystal cavity with high quality factors ,Appl. Opt. 53, 3454-3458(2014)
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