Researchgate链接：  https://www.researchgate.net/profile/Lujun-Hong?ev=prf_overview

    部分研究成果（*为通讯作者）

[1]  L. J. Hong*, C. Liu, J. Wu, C. J. He, K. Yuan, X. H. Deng, S. Yang, and Z. Gao*. “Broadband, robust, and tunable beam splitter based on topological unidirectional surface magnetoplasmons,”  Photonics Research 14(3),781-789 (2026)   (通讯,  1区TOP, IF=7.2) 

[2] Q. Zhong, W. Zou, J. T. Lei, Y. Shen, J. Chen*, L. J. Hong*, and T. J. Guo*. “Enhanced sensing enabled by multi-resonant QBIC-EIT and SP-BIC in pyramidal LiNbO3 metasurfaces,”  Sensors 26, 2632 (2026).  (通讯，研究生1作) 

[3]S. Q. Fan, T. J. Guo, B. B. Zhou, J. Xu, X. H. Deng, J. T. Lei, Y. Shen, M. C. Fu*, K. L. Tsakmakidis* and L. J. Hong*. “Multiple truly topological unidirectional surface magnetoplasmons at terahertz frequencies,” Physical Review B 111, 235303 (2025). (通讯,  自然指数期刊，研究生1作) 

[4] C. Liu, Z. Y. Zhao, T. J. Guo, J. Xu, X. H. Deng, K. Yuan, R. X. Tang, K. L. Tsakmakidis, and L. J. Hong*, “Robust multimode interference and conversion in topological unidirectional surface magnetoplasmons,” Optics Letters 50, 1253-1256 (2025)   (通讯, 2区TOP,  研究生1作)

[5] L. J. Hong, C. L. Zhang, J. Wahlen, J. E. Antonio-Lopez, R. A. Correa, C. Markos, Y. Z. Wang*. “High energy and narrow linewidth N2-filled hollow-core fiber laser at 1.4 μm,” Journal of Lightwave technology, 42, 5645-5649 (2024).    (1区TOP,  IF=4.8)

[6] Y. Z. Wang*, L. J. Hong, C. L. Zhang, J. Wahlen, J. E. Antonio-Lopez, M. Dasa, A. Adamu, R. A. Correa, and C. Markos*. “Synthesizing gas-filled anti-resonant hollow-core fiber Raman lines enables access to the molecular fingerprint region,” Nature Communications 15, 9427 (2024).  (博后合作老师1作, Nature子刊,  IF=14.7)

[7] J. Xu, S. S. Xiao, P. P. He, Y. Z. Wang, Y. Shen, L. J. Hong*, Y. M. Luo*; B. He*; “Realization of broadband truly rainbow trapping in gradient-index metamaterials,” Optics Express, 30(3), 3941 (2022).  (通讯, 2区TOP, IF=3.8).

[8] L. J. Hong, Y. Z. Wang, Y. Shen*, X. H. Deng, K. Yuan, S. S. Xiao and J. Xu*. “Broadband energy squeezing and tunneling based on unidirectional modes,” Optical Materials Express, 11, 2975-2984 (2021). (IF=3.4).

[9] L. J. Hong, Y. You, Q. Shen, Y. Z. Wang, X. Liu, C. H. Wu, L. F. Shen, X. H. Deng*, S. S. Xiao*. “Magnetic field assisted beam-scanning leaky-wave antenna utilizing one-way waveguide,” Scientific Reports 9, 16777 (2019).  (IF=4.9).

[10] L. J. Hong, S. S. Xiao, X. H. Deng, R. Q. Pu, L. F. Shen*. “High-efficiency tunable T-shaped beam splitter based on one-way waveguide,” Journal of Optics, 20, 125002 (2018).

[11] X. H. Deng, L. J. Hong, X. D. Zheng, and L. F. Shen*. “One-way regular electromagnetic mode immune to backscattering,” Applied Optics 54, 4608-4612 (2015). (导师1作，被物理综述顶刊Reviews of Modern Physics评价：连续磁介质表面的单向模式代表之一).

[12]     H. H. Ruan, S. M. Yang, J. Hu, L. Li, Y. Shen, Z. X. Wu, L. J. Hong, T. J. Guo, and J. T. Lei*. “A novel approach to enhance terahertz metamaterial’s sensor sensitivity for low-dose Aβ₄₂ protein detection: constructing a bilayer structure with rotational symmetry arrangement,” Talanta 298, 128826 (2026).

[13]     M. Q. Cai*, J. Zhang, W. C. Yan, J. T. Lei, L. J. Hong, and Z. X. Wu*. “Highly efficient generation of the vector optical field and vector focal spots array based on Sagnac interferometer and 4f system,” Optics Communications 608, 133072 (2026).

[14] J. Xu*, Y. You, S. S. Xiao, L. J. Hong, Y. Shen, K. L. Tsakmakidis*, Y. M. Luo*. “Assembling magneto-optical heterostructures for all-optical multi-functional devices,” Optics and Laser Technology 188, 112858 (2025).

[15] P. P. He, Y. Shen, S. S. Xiao, L.J. Hong, Y. You, K. L. Tsakmakidis*, Y. M. Luo*, and J. Xu*. “Precisely tunable and predictable index-near-zero modes across continuous and broad bands,” Applied Physics Letters 124, 161109 (2024).

[16] X. Zhou, L. Li, Y. Shen, L. J. Hong, D. Lin, T. J. Guo, and J. T. Lei*, “Design, simulation, and experimental realization of a high-sensitivity polarization-independent electromagnetically induced transparent terahertz metamaterials,” Optics Express 32, 33130-33143 (2024).

[17] J. T. Chen, L. J. Hong, J. Lei, Shen Y, X. H. Deng, J. Chen, T. J. Guo*. “High-Performance Terahertz Coherent Perfect Absorption with Asymmetric Graphene Metasurface,” Photonics. 11, 544 (2024).

[18] J. T. Chen, W. Zou, L. J. Hong, J. Chen, R. Tang, Y. Shen, T. J. Guo*, J. T. Lei*, and X. H. Deng, “Nonreciprocal reflection based on asymmetric graphene metasurfaces,” Optics Express 31, 39811-39820 (2023).

[19]  Y. Zhou; P. P. He; S. S. Xiao; F. W. Kang; L. J. Hong; Y. Shen; Y. M. Luo; J. Xu. “Realization of tunable index-near-zero modes in nonreciprocal magneto-optical heterostructures,” Optics Express 30, 27259-27272 (2022).

[20]J. Xu, P. He, D. Feng, K. Yong, L. J. Hong, Y. Shen, and Y. Zhou, "Slow wave and truly rainbow trapping in a one-way terahertz waveguide," Optics Express 29, 11328-11341 (2021).

[21] Y. Z. Wang, J. F. Li*, L. J. Hong, F. Liu, Y. W. Shi, X. J. Zhou, and Y. Liu. “Bound states of different pulses based on third-order dispersion,” Optics Letters 44, 2370-2373 (2019).

[22] Q. Shen, L. J. Hong, X. H. Deng, L. F. Shen*. “Completely stopping microwaves with extremely enhanced magnetic fields,” Scientific Reports 8, 15811 (2018).

[23] Y. Z. Wang, J. F. Li*, L. J. Hong, G. Y. Li, F. Liu, X. J. Zhou, and Y. Liu. “Coexistence of dissipative soliton and stretched pulse in dual-wavelength mode-locked Tm-doped fiber laser with strong third-order dispersion,” Optics Express 26, 18190-18201 (2018).

[24] J. M. Chen, K. Yuan, L. F. Shen, X. H. Deng, L. J. Hong, and M. Yao, "Studies of Terahertz Wave Propagation in Realistic Reentry Plasma Sheath," Progress In Electromagnetics Research 157, 21-29 (2016).

国际会议论文

[1] B. B. Zhou, Q. Shen, P. R. Whelan, L. J. Hong and P. U. Jepsen, "Conductivity measurement of graphene on thin polymeric film by broadband air-plasma THz spectroscopy," 2019 44th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz), Paris, France, 2019, pp. 1-1, doi: 10.1109/IRMMW-THz.2019.8873899.

[2] B. B. Zhou, Y. Z. Wang, L. J. Hong, D. Madhi and P. U. Jepsen, "High-efficiency Sub-single-cycle THz Wave Generation by Three-color Air Plasma," 2018 43rd International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz), Nagoya, Japan, 2018, pp. 1-1.

国家发明专利 （申请5项，授权2项）

[1]  洪露军 等; 一种基于单向模式的宽带分束器,  授权号：ZL 202510703002.5,  授权日期：2025.7.29