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个人简介

2009年获得中山大学光信息科学与技术专业学士学位, 2014年获得中山大学光学博士学位。在读博士期间曾于香港城市大学联合培养。2014年9月至2016年9月,在深圳大学SZU-NUS光电科技协同创新中心从事了两年博士后研究。2016年10月正式加入暨南大学光子技术研究院。2019年-2020年在美国纽约CUNY, Advanced Science Research Center从事访问学者工作。 邓子岚博士长期从事微纳光子学研究,致力于基于表面等离激元(Surface plasmon polariton)与超构表面(Metasurface)微纳结构的全息编码与加密、人工智能光子器件逆向建模算法、便携式无线通信/传能等新型光子与电磁波集成器件的软硬件设计与开发。以第一/通信作者在Light: Science& Applications (IF=14.0), Nano Letters (IF=12.3), Advanced Optical Materials (IF=7.1), Nanoscale, Photonics Research, Applied Physics Letters等国际权威期刊上发表论文16篇。担任OL、OE、IEEE PJ、EPL、《物理学报》等期刊审稿人。多次在CLEO PR, Piers, Light Conference, ACP, Meta等国际学术会议上做报告,在2018年的Light Conference上获得“Rising stars of light”提名奖。

研究领域

微纳光子学、电磁超构材料、新型光场调控

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

1. Zi-Lan Deng, J. Deng, X. Zhuang, S. Wang, T. Shi, Y. Wang, J. Xu, Y. Cao, X.Wang, G.P. Wang, X. Cheng, G. Li, X. Li, “Facile Metagrating Holograms with Broadband and Extreme Angle Tolerance”, Light: Sci. & Appl., 7(1), 78 (2018). (IF=14.0) 2. Zi-Lan Deng, J. Deng, X. Zhuang, S. Wang, K. Li, Y. Wang, Y. Chi, X. Ye, J. Xu, G. P. Wang, R. Zhao, X. Wang, Y. Cao, X. Cheng, G. Li, and X. Li, Diatomic Metasurface for Vectorial Holography, Nano Lett., 18(5), 2885-2892 (2018). (IF=12.3) 3. T. Shi, Y. Wang, Zi-Lan Deng*, X. Ye, Z. Dai, Y. Cao, B.-O. Guan, S. Xiao*, X. Li*, “All-Dielectric Kissing-Dimer Metagratings for Asymmetric High Diffraction,” Adv. Opt. Mater. , 1901389 (2019). (IF=7.1) 4. Zi-Lan Deng, Shuang Zhang, and Guo Ping Wang, A facile grating approach towards broadband, wide-angle and high-efficiency holographic metasurfaces, Nanoscale 8, 1588-1594 (2016). (IF=6.9) 5. Zi-Lan Deng, Y. Cao, X. Li, and G. P. Wang, Multifunctional metasurface: from extraordinary optical transmission to extraordinary optical diffraction in a single structure, Photon. Res., 6(5), 443-450 (2018). (IF=5.3) 6. Zi-Lan Deng, and G. Li, Metasurface optical holography, Mater. Today Phys.3, 16-32 (2017). 7. Zi-Lan Deng, Tao Fu, Zhengbiao Ouyang, and Guo Ping Wang, Trimeric metasurfaces for independent control of bright and dark modes of Fano resonances, Appl. Phys. Lett. 108, 081109 (2016). 8. Zi-Lan Deng, Shuang Zhang, and Guo Ping Wang, Wide-angle and high-efficiency achromatic metasurfaces for visible light, Opt. Express, 24,23118 (2016). 9. Zi-Lan Deng, Natesan Yogesh, Xiao-Dong Chen, Wen-Jie Chen, Jian-Wen Dong, Zhengbiao Ouyang, and Guo Ping Wang, Full controlling of Fano resonances in metal-slit superlattice, Sci. Rep.5, 18461 (2015). 10. Zi-Lan Deng, and Jian-Wen Dong, Lasing in Plasmon-Induced Transparency Nanocavity, Opt. Express 21, 20291-20302 (2013). 11. Zi-Lan Deng, X. Li, T. Fu, and G. P. Wang, Fano Resonance in a Metasurface Composed of Graphene Ribbon Superlattice, IEEE Photon. J.9(5), 1-7 (2017). 12. Zi-Lan Deng, Zhao-Hong Li, Jian-Wen Dong, and He-Zhou Wang, In-Plane Plasmonic Modes in a Quasicrystalline Array of Metal Nanoparticles, Plasmonics 6, 507-514 (2011). 13. Zi-Lan Deng,Jian-Wen Dong, He-Zhou Wang, S. H. Cheng, and Jensen Li, Power transmission and group delay in gain-assisted plasmon-induced transparency, AIP Adv. 3, 032138 (2013). 14. Jian-Wen Dong# and Zi-Lan Deng# (#Equally contributed), Direct eigenmode analysis of plasmonic modes in metal nanoparticle chain with layered medium, Opt. Lett. 38, 2244 (2013). 15. T. Fu, X. Gao, G. Xiao, T. Sun, Q. Li, F. Zhang, Y. Chen, H. Li*, andZi-Lan Deng*, Superlattice bilayer metasurfaces simultaneously supporting electric and magnetic Fano resonances, Opt. Mater. Express 9(3), 944-952 (2019). 16. S. Wang, F. Li, J. Deng, X. Ye, Zi-Lan Deng*, Y. Cao, B.-O. Guan, G. Li, and X. Li*, Diatomic metasurface based broadband J-plate for arbitrary spin-to-orbital conversion, J. Phys. D: Appl. Phys. 52, 324002 (2019). 17. X.-D. Chen, Zi-Lan Deng, W.-J. Chen, J.-R. Wang, and J.-W. Dong, Manipulating pseudospin-polarized state of light in dispersion-immune photonic topological metacrystals,Phys. Rev. B 92, 014210 (2015). 18. T. Li, S. Wang, X.-L. Zhang, Zi-Lan Deng, Z. H. Hang, H.-B. Sun, and G. P. Wang, Non-uniform annular rings-based metasurfaces for high-efficient and polarization-independent focusing, Appl. Phys. Lett. 107, 251107 (2015). 19. N. Muhammad, A. Khan, Zi-Lan Deng, K. Khan, A. Yadav, Q. Liu, and Z. Ouyang, Plasmonic Spectral Splitting in Ring/Rod Metasurface, Nanomaterials 7(11), 397 (2017). 20. S. Wang, Zi-Lan Deng, Y. Cao, D. Hu, Y. Xu, B. Cai, L. Jin, Y. Bao, X. Wang, and X. Li, Angular Momentum-Dependent Transmission of Circularly Polarized Vortex Beams Through a Plasmonic Coaxial Nanoring, IEEE Photon. J.10(1), 1-9 (2018).

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