中国计量大学太赫兹技术与应用研究所

2020年发表论文

[01] Li Xiangjun, Liu Zihao, Yan Dexian, Li Jining, Li Jiusheng, Qiu Guohua, Hou Xiaomei, Cheng Gang, Experimental demonstration of 3D printed terahertz polarization-insensitive flat devices based on low-index meta-gratings, J. Phys. D 53, 505301(2020).
[02] Yan Dexian, Meng Miao, Li Jiusheng, Li Jining, Li Xiangjun, Vanadium dioxide-assisted broadband absorption and linear-to-circular polarization conversion based on a single metasurface design for the terahertz wave, Opt. Express 28, 29843-29854(2020).
[03] Jing, Xufeng; Feng, Dantian; Tian, Ying; Li, Meng; Chu, Chengfei; Li, Chenxia; He,Yingwei; Gan, Haiyong; Hong, Zhi; Design of two invisibility cloaks using transmissive and reflective metamaterial-based multilayer frame microstructures, Opt. Express 28, 35528-35539(2020).
[04] Luo Tianzi, Jing Xufeng, Gan Haiyong, Li Chenxia, and Hong Zhi, Wideband near-zero-index metamaterials created by using a supercell microstructure in the terahertz range, Laser Phys. Lett. 17(12), 126203(2020).
[05] Tian Ying, Jing Xufeng, Gan Haiyong, Li Chenxia, and Hong Zhi, Free control of far-field scattering angle of transmission terahertz wave using multilayer split-ring resonators' metasurfaces, Frontiers Phys. 15(6): 62502(2020).
[06] Tian Ying, Jing Xufeng, Yu Hao, Gan Haiyong, Li Chenxia, and Hong Zhi, Manipulation of the arbitrary scattering angle based on all-dielectric transmissive Pancharatnam Berry phase coding metasurfaces in the visible range, Opt. Express ‏28(21), 32107-32123(2020).
[07] Jing Xufeng, Ke Youhuang, Tian Ying, Gan Haiyong, He, Yingwei, Li Chenxia, and Hong Zhi, Manipulation of Terahertz Wave Based on Three-Layer Transmissive Pancharatnam-Berry Phase Metasurface, IEEE Access 8, 164795-164806(2020).
[08] Wang Yun; Qin Jian-yuan; Jia Sheng-yao; Wang Yan-jie; Wu Xia, Detection of Trichlorfon in Soil Using THz-FDS, Spectroscopy & Spectral Analysis 40, 1791-1795 (2020).
[09] Chen, Qian; Jia, Shengyao; Qin, Jianyuan; Du, Yong; Zhao, Zongshan, A Feasible Approach to Detect Pesticides in Food Samples Using THz-FDS and Chemometrics, J. Spectroscopy 2020, 3859076(2020)
[10] Qin, Jianyuan; Cheng, Wei; Han, Baojuan; Du, Yong; Han, Zhanghua; Zhao, Zongshan, Ultrasensitive detection of saccharides using terahertz sensor based on metallic nano-slits, Sci. Rep. 10, 3712(2020).
[11] Wang, Yongmei; Zhao, Zongshan; Qin, Jianyuan; Liu, Huan; Liu, Aifeng; Xu, Mengmeng, Rapid in situ analysis of L-histidine and alpha-lactose in dietary supplements by fingerprint peaks using terahertz frequency-domain spectroscopy, TALANTA 208, 120469 (2020).
[12] Jifeng Wang, Tingting Lang, Zhi Hong, Tingting Shen, and Gangqi Wang, Tunable terahertz metamaterial absorber based on electricity and light modulation modes, Opt. Mater. Express 10, 2262-2273(2020)
[13] Yan, Dexian; Meng, Miao; Li, Jiusheng, Proposal for a symmetrical petal core terahertz waveguide for terahertz wave guidance, J. Phys. D 53(27): 275101(2020).
[14] Yan, Dexian; Meng, Miao; Li, Jiusheng; Terahertz wave refractive index sensor based on a sunflower-type photonic crystal, Laser Phys. 30(6): 066206(2020).
[15] Yan, Dexian; Meng, Miao; Li, Jiusheng; Li, Xiangjun; Graphene-Assisted Narrow Bandwidth Dual-Band Tunable Terahertz Metamaterial Absorber, Frontiers Phys. 8: 306(2020).
[16] Yan, Dexian; Li, Jiusheng; Wang, Yi; Photonic crystal terahertz wave logic AND-XOR gate, Laser Phys. 30, 016208(2020).
[17] Ma Hong-yu; Li Jiu-sheng, Terahertz Bandpass Filter Based on Koch Curve Fractal Structure, Spectroscopy & Spectral Analysis 40(3): ‏ 733-737(2020).
[18] Li, Zhe Wen; Li, Jiu-Sheng; Bi2O2Se for broadband terahertz wave switching, Appl. Opt. 59:11076-11079(2020).
[19] Li, Jiu-Sheng; Zhang, Li-Na; Simple terahertz vortex beam generator based on reflective metasurfaces, Opt. Express 28, 36403(2020).
[20] Li Jiu-sheng; Hu Mu-shu; Manipulation terahertz wave with electro-rheological fluid, Opt. Commun. 475, 126244(2020).
[21] Xiong, Ri-hui; Peng, Xiao-qing; Li, Jiu-sheng, Graphene-metasurface for wide-incident-angle terahertz absorption, Frontiers Inform. Technol. & Electron Eng. 2020
[22] Li Da; Li Jiu-sheng; Dual-band terahertz switch based on EIT/Fano effect, Opt. Commun. 472, 125862(2020).
[23] Meng Miao; Yan De-Xian; Li Jiu-Sheng; Research on negative curvature terahertz fiber based on nested triangle structure cladding, Acta Phys. Sinica 69, 167801(2020).
[24] Zhou, Chen; Peng, Xiao-qing; Li, Jiu-sheng, Graphene-embedded coding metasurface for dynamic terahertz manipulation, Optik 216, 164937(2020).
[25] Li, Jiu-Sheng; Bai, Feng-Qing;Dual-band terahertz polarization converter with high-efficiency asymmetric transmission,Opt. Mater. Express 10, 1853-1861(2020).
[26] Li, Jiu-Sheng; Zhou, Chen; Multifunctional reflective dielectric metasurface in the terahertz region, Opt. Express 28, 22679(2020).
[27] Sun, Jian-Zhong; Li, Jiu-Sheng; Broadband Adjustable Terahertz Absorption in Series Asymmetric Oval-Shaped Graphene Pattern, Frontiers Phys. 8, 245(2020).
[28] Li, Jiu-Sheng, Dual-band passband tetrahertz filter based on multilayer metamaterial, Appl. Opt. 59, 6119(2020).
[29] Li, Jiu-Sheng; Chen, Xu-Sheng; Adjustable polarization-independent wide-incident-angle broadband far-infrared absorber, Chin. Phys. B29, 078703(2020).
[30] Zhou, Chen; Li, Jiu-Sheng; Polarization conversion metasurface in terahertz region, Chin. Phys. B29, 078706(2020).
[31] Xiong, Ri-Hui; Peng, Xiao-Qing; Li, Jiu-Sheng; Terahertz Switch Utilizing Inorganic Perovskite-Embedded Metasurface, Frontiers Phys. 8, 141(2020).
[32] Wang Kai-Hong; Li Jiu-Sheng; Yao Jian-Quan, Sensitive Terahertz Free Space Modulator Using CsPbBr3 Perovskite Quantum Dots-Embedded Metamaterial, J. Infra. Mill THz 41, 557(2020).
[33] Li, Jiu-sheng; Hu, Mu-shu; Enhancement of silicon modulating properties in the THz range by YAG-Ce coating, Sci. Rep. 10, 6605(2020).
[34] Li Jiu-sheng; Li Shao-he; Yao Jian-quan,Actively tunable terahertz coding metasurfaces, Opt Commun. 461, 125186(2020).
[35] Xiong, Ri-Hui; Li, Jiu-sheng, Terahertz Transmission Characteristics of Free-Standing Fractal Jesus-Cross Structure, Frontiers Phys. 8, 23(2020).
[36] Chen Xu-Sheng; Li Jiu-Sheng; Tunable terahertz absorber with multi-defect combination embedded VO2 thin film structure, Acta Phys. Sinica 69, 027801(2020).
[37] Li, Xiangjun; Yin, Jie; Liu, Zihao; Wang, Yi; Hong, Zhi, Tailoring the excitation of two kinds of toroidal dipoles in all-dielectric metasurfaces, Optik 201, 163502(2020) .
[38] Weihang Xu, Lingling Chen, Fangming Zhu, Jianjun Liu, Chuanshuai Sui, and Zhi Hong, Double Fano Resonances in S-Shaped Plasmonic Metasurfaces in Terahertz Region, Frontiers in Physics 8, 256(2020).
[39] Jiang, Li; Fang, Bo; Yan, Zhigang; Gan, Gan, Haiyong; Li, Chenxia; Zhang, Meina; Hong, Zhi; Jing, Xufeng, Bandwidth-enhanced carpet cloak by using a phase-gradient metasurface with a multilayer unit cell in terahertz range, Opt. Commun., 471: 125827 (2020).
[40] Zhang, Ziming; Wang, Qiqi; Xue, Jiadan; Du, Yong; Liu, Jianjun; Hong, Zhi, Vibrational Spectroscopic Investigation into Novel Ternary Eutectic Formed between Pyrazinamide, Fumaric Acid, and Isoniazid. ACS omega 5(28): 17266-17274‏(2020).
[41] Wang, Gangqi; Lang, Tingting; Hong, Zhi, Metallic metamaterial terahertz sensors for simultaneous measurement of temperature and refractive index, Appl. Opt. 59(18): ‏ 5385-5390(2020).
[42] Wu, Xiushan; Wang, Yaguo; Xue, Jiadan; Liu, Jianjun; Qin, Jianyuan; Hong, Zhi; Du, Yong, Solid phase drug-drug pharmaceutical co-crystal formed between pyrazinamide and diflunisal: Structural characterization based on terahertz/Raman spectroscopy combining with DFT calculation, Spectrochimica A 234, 118265(2020).
[43] Jiang, Li; Chu, Chengfei; Fang, Bo; Zhang, Meina; Gan, Haiyong; Li, Chenxia; Jing, Xufeng; Hong, Zhi, Multi-wavelength carpet cloaking based on an ultrathin single layer metamaterial microstructure. Laser Phys. Lett. 17(6), 066202(2020).
[44] Du, Yong; Xue, Jiadan; Hong, Zhi, Raman and Terahertz Spectroscopic Characterization of Solid-state Cocrystal Formation within Specific Active Pharmaceutical Ingredients. Current pharmaceutical design 26: 4829-4846(2020‏).
[45] Jiang, Li; Fang, Bo; Yan, Zhigang; Fan, Jing; Qi, Cenke; Liu, Jianjun; He, Yingwei; Li, Chenxia; Jing, Xufeng; Gan, Haiyong; Hong, Zhi, Terahertz high and near-zero refractive index metamaterials by double layer metal ring microstructure, Opt. Laser Technol 123: 105949(2020).
[46] Fang, Bo; Yan, Zhigang; Fan, Jing; Qi, Cenke; Gan, Haiyong; He, Yingwei; Li, Chenxia; Hong, Zhi; Jing, Xufeng, Highly efficient beam control of transmitted terahertz wave based on all dielectric encoding metasurface, Opt. Commun. 458: 124720(2020).
[47] Jiang, Li; Fang, Bo; Yan, Zhigang; Li, Chenxia; Fu, Jipeng; Gan, Haiyong; Hong, Zhi; Jing, Xufeng, Improvement of unidirectional scattering characteristics based on multiple nanospheres array, Microwave Opt. Tech. Lett. 62(6): 2405-2414(2020).
[48] Jiang, Li; Fang, Bo; Yan, Zhigang; Li, Chenxia; Gan, Haiyong; He, Yingwei; Hong, Zhi; Jing, Xufeng, Microelectro. Eng. 223: 1112169(2020).
[49] Jinfeng Wang, Tingting Lang, Tingting Shen, Changyu Shen, Zhi Hong and Congcong Lu, Numerical Study of an Ultra-Broadband All-Silicon Terahertz Absorber, Appl. Sci. 10(2), 436(2020).
[50] 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(2), 358-368 (2020).
[51] Du, Yong; Wang, Yaguo; Xue, Jiadan; Liu, Jianjun; Qin, Jianyuan; Hong, Zhi; Structural insights into anhydrous and monohydrated forms of 2,4,6-trihydroxybenzoic acid based on Raman and terahertz spectroscopic characterization, SPECTROCHIMICA 224: 117436(2020).

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