About Me

Lujun Hong, born in November 1991 in Jiangxi, China, is a assistant researcher at the Institute of Space Science and Technology, Nanchang University. He specializes in the study of unidirectional propagation and non-reciprocal devices in the microwave/terahertz frequency range.

Educational Background

Visiting Ph.D   2018.1--2019.1, Technical University of Denmark (Supervisors: Associate Prof. Binbin Zhou)

Ph.D.   2016.9--2020.7, Nanchang University (Supervisors: Prof. Xiaohua Deng and Linfang Shen)

M.S.   2013.9--2016.7, Nanchang University (Supervisors: Prof. Xiaohua Deng and Linfang Shen)

B.S.   2009.9--2013.7, Nanchang University

Work Experience

Assistant Researcher   2020.11--, Nanchang University, Institute of Space Science and Technology

Postdoctoral Researcher   2022.5--2023.7, Technical University of Denmark, Department of Photonics Engineering

Publications

[1] 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 [J]. Nat Commun 15, 9427 (2024).

[2] 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,” Opt. Express 32, 33130-33143 (2024).

[3] 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. 2024; 11(6):544.

[4] P. P. He, Y. Shen, S. S. Xiao, L. J. Hong, Y. You, K. L. Tsakmakidis*, Y. M. Luo*, J. Xu*; Precisely tunable and predictable index-near-zero modes across continuous and broad bands. Appl. Phys. Lett. 15 April 2024; 124 (16): 161109.

[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[J]. Journal of Lightwave technology, 2024, 42(16), 5645-5649.

[6] 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,” Opt. Express 31, 39811-39820 (2023).

[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 [J]. Optics Express, 2022, 30(3): 3941.

[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 [J]. Optical Materials Express, 2021, 11(9): 2975-2984.

[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 [J]. Scientific Reports, 2019, 9(1): 16777.

[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 [J]. Journal of Optics, 2018, 20(12): 125002.

[11] X. H. Deng, L. J. Hong, X. D. Zheng, and L. F. Shen*. One-way regular electromagnetic mode immune to backscattering [J]. Applied Optics, 2015, 54(14): 4608-4612. (Comment: as one of the representative one-way modes on continuous magnetic media surfaces by Reviews of Modern Physics)

[12] Q. Shen, L. J. Hong, X. H. Deng, L. F. Shen*. Completely stopping microwaves with extremely enhanced magnetic fields [J]. Scientific Reports, 2018, 8(1): 15811.

[13] 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 [J]. Optics Letters, 2019, 44(9): 2370-2373.

[14] 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 [J]. Optics Express, 2018, 26(14): 18190-18201.

[15] B. B. Zhou, L. J. Hong, Y. Z. Wang, et al. Identification of Linear and Nonlinear Conductivity in Graphene with Broadband Air-plasma THz Spectroscopy [100]. The 8th OTST, 2019.3.

Funding

1. National Natural Science Foundation of China (12464057), Low-loss terahertz one-way propagation and non-reciprocal components based on electromagetic metamaterial, 2025–2028, 310,000 CNY, Principal Investigator

2. Natural Science Foundation of Jiangxi Province – General Project (20242BAB25039), Broadband one-way propagation in an asymmetric system without applied magnetic field at microwave frequencies, 2024–2026, 80,000 CNY, Principal Investigator

3. Natural Science Foundation of Jiangxi Province – Youth Project (20224BAB211015), Research on high-efficiency broadband terahertz radiation based on multi-color laser pulses induced air-plasma, 2023–2025, 100,000 CNY, Principal Investigator

4. Young Talent Innovation Fund Project of Nanchang University (PYQN20230029), Research on broadband terahertz unidirectional transmission based on time-varying metamaterials, 2023–2026, 200,000 CNY, Principal Investigator