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个人简介

2006.6-现今 东南大学物理系 (工作) 2010.9-2011.8年 美国加州大学Berkeley分校 (国家公派博士后, Prof. Xiang Zhang's Lab) 2003.9—2006.6年 南京大学物理系 (凝聚态物理专业博士, 介电超晶格实验室) 2000.9—2003.6年 苏州大学物理系 (材料物理与化学专业硕士,功能性纳米材料研究组)

研究领域

特异介质薄膜的光学磁响应 纳米等离激元光子学

近期论文

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[27] Ying-Hua Wang, Ren-Chao Jin, Jia-Qi Li, Fan Zhong, Hui Liu, Inki Kim, Yongjoon Jo, Junsuk Rho, and Zheng-Gao Dong* Photonic spin Hall effect by the spin-orbit interaction in a metasurface with elliptical nano-structures Appl. Phys. Lett. 110, 101908 (2017). [26] R.-C. Jin, J. Li, Y.-H. Wang, M.-J. Zhu, J.-Q. Li, and Z.-G. Dong*, Optical force enhancement and annular trapping by plasmonic toroidal resonance in a double-disk metastructure Optics Express 24(24), 27563-27568 (2016). [25] Jie Li, Xing-Xing Xin, Jian Shao, Ying-Hua Wang, Jia-Qi Li, Lin Zhou, and Zheng-Gao Dong* From non- to super-radiating manipulation of a dipolar emitter coupled to a toroidal metastructure Optics Express 23(23), 29384 (2015). [24] Ying-Hua Wang, Jian Shao, Jie Li, Ming-Jie Zhu, Jiaqi Li, L Zhou, and Zheng-Gao Dong* Broadband asymmetric transmission by rotated bilayer cross-shaped metamaterials J. Phys. D: Appl. Phys. 48, 485306 (2015). [23] Ying-Hua Wang, Jian Shao, Jie Li, Zongbang Liu, Jiaqi Li, Zheng-Gao Dong*, and Ya Zhai Broadband high-efficiency transmission asymmetry by a chiral bilayer bar metastructure Journal of Applied Physics 117, 173102 (2015). [22] Jie Li, Jian Shao, Ying-Hua Wang, Ming-Jie Zhu, Jia-Qi Li, and Zheng-Gao Dong* Toroidal dipolar response by a dielectric microtube metamaterial in the terahertz regime Optics Express 23 (22), 29138 (2015). [21] Jiaqi Li, Yuan Zhang, Renchao Jin, Qianjin Wang, Qian Chen, and Zhenggao Dong* Excitation of plasmon toroidal mode at optical frequencies by angle-resolved reflection Opt. Lett. 39(23), 6683 (2014). [20] Jian Shao, Jie Li, Ying-Hua Wang, Jia-Qi Li, Qian Chen, and Zheng-Gao Dong* Polarization conversions of linearly and circularly polarized lights through a plasmon-induced transparent metasurface Journal of Applied Physics 115, 243503 (2014). [19]Jian Shao, Jiaqi Li, Jie Li, Yu-Kun Wang, Z. G. Dong*, P. Chen, R. X. Wu, and Y. Zhai Analogue of electromagnetically induced transparency by doubly degenerate modes in a U-shaped metamaterial Applied Physics Letters102, 034106 (2013). [18] Z. G. Dong, J. Zhu, X. Yin, J. Li, C. Lu, and X. Zhang All-optical Hall effect by the dynamic toroidal moment in a cavity-based metamaterial Physical Review B87, 245429 (2013). [17] Z. G. Dong, J. Zhu, J. Rho, J. Q. Li, C. Lu, X. Yin, and X. Zhang Optical toroidal dipolar response by an asymmetric double-bar metamaterial Applied Physics Letters101, 144105 (2012). [16] Z. G. Dong, P. Ni, J. Zhu, X. Yin, and X. Zhang Toroidal dipole response in a multifold double-ring metamaterial Optics Express20, 13065 (2012). [15] Z. G. Dong, P. Ni, J. Zhu, and X. Zhang Transparency window for the absorptive dipole resonance in a symmetry-reduced grating structure Optics Express 20, 7206 (2012). [14] Z. G. Dong, H. Liu, M. X. Xu, T. Li, S. M. Wang, J. X. Cao, S. N. Zhu, and X. Zhang Role of asymmetric environment on the dark mode excitation in metamaterial analogue of electromagnetically-induced transparency Optics Express18 (21), 22412-22417 (2010). [13] Z. G. Dong, H. Liu, J. X. Cao, T. Li, S. M. Wang, S. N. Zhu, and X. Zhang Enhanced sensing performance by the plasmonic analog of electromagnetically induced transparency in active metamaterials Applied Physics Letters 97 (11), 114101 (2010). [12] Z. G. Dong, H. Liu, M. X. Xu, T. Li, S. M. Wang, S. N. Zhu, and X. Zhang Plasmonically induced transparent magnetic resonance in a metallic metamaterial composed of asymmetric double bars Optics Express 18, 18229 (2010). [11] Z. G. Dong, H. Liu, T. Li, Z. H. Zhu, S. M. Wang, J. X. Cao, S. N. Zhu, and X. Zhang Optical loss compensation in a bulk left-handed metamaterial by the gain in quantum dots Applied Physics Letters96, 044104 (2010). [10] Z. G. Dong,H. Liu,T. Li, Z. H. Zhu, S. M. Wang, J. X. Cao, S. N. Zhu, and X. Zhang Modeling the directed transmission and reflection enhancements of the lasing surface plasmon amplification by stimulated emission of radiation in active metamaterials

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