个人简历:
1995年7月 37000c威尼斯物理系 理学学士。
2004年7月 37000c威尼斯原子与分子物理专业理学硕士。
2011年7月 南京大学凝聚态专业 理学博士
任职:
1999年6月-2004年9月 37000c威尼斯 助教
2004年9月-2011年9月37000c威尼斯 讲师
2011年9月-至今, 37000c威尼斯 副教授
2014年12月-2017年6月, 复旦大学理论物理专业 博士后
窗体顶端
研究领域和方向:
表面等离激元光子学、电磁超构材料、超表面
主要涉及到利用耦合模理论来研究模式间的耦合导致的Fano共振和等离激元诱导透明等现象,来指导传感和开关等器件的设计;研究耦合对光学活性的影响;研究活性材料(二氧化钒等)的动态调控的功能。
讲授课程:
本科:数学物理方法、量子力学、理论力学、工程数学-复变函数、复变函数与积分变化、狭义相对论、大学物理实验、普通物理实验
获奖情况:
无
承担课题:
1 国家自然科学基金面上项目,61775002,定向传输干涉的长焦深表面等离激元纳米光刻技术研究,2018/01-2021/12,62万元,在研,参加
2复旦大学应用表面物理国家重点实验室开放课题项目,KF2018_01,两模式耦合的纳米光学体系的理论和实验研究,2018/03-2020/3,10万元,在研,主持
3金属微结构的Fano共振透射强度和光学活性的实验研究和理论模拟,国家自然基金(青年)11304002,主持
4 结构对称破缺及相变对超构材料光学性能的影响,安徽省自然科学基金项目(面上)1208085MA07,主持
5 结构对称破缺对超构材料旋光性能的影响,安徽省高等学校省级自然科学研究项目(重点项目)[1] KJ2013A136,主持
6 实现界面钝化的单晶硅/非晶硅纳米线易质结太阳电池研究,国家自然基金(青年)61106011,参与
7 基于表面等离激元的光传输、吸收和辐射效应的研究,国家自然基金(面上),11174128,参与
8 金属表面等离激元(SPP)和局域表面等离激元耦合效应的光,国家自然基金(青年)11104032,参与
9 离子型量子计算中量子退相干控制研究,安徽省自然科学基金,090412060,参与
主要学术论文:
1 Wanxia Huang*, Xiyue Zhang, Qianjin Wang, Maosheng Wang, Chaogang Li, Kuanguo Li, Xinyan Yang, and Jianping Shi, Controllability of surface plasmon polaritions far field radiation using metasurface, Photonics Research,2019,7 (7):728.
2 Wanxia Huang, Jing Lin, Meng Qiu, Tong Liu, Qiong He, Shiyi Xiao*, and Lei Zhou*, A complete phase diagram for dark-bright coupled plasmonic systems: applicability of Fano’s formula, Nanophotonics, DOI: 10.1515/nanoph-2020-0007.
3 Cunyuan Zhu, Chaogang Li, Quan Fang, Maosheng Wang, Xuecheng Peng, Wanxia Huang*, The spring oscillator model degenerated into the coupled-mode theory by using secular perturbation theory, Acta Phys. Sin. 2020, 69 (7): 074501.
4 Wanxia Huang*, Chaogang Li, Maosheng Wang, Yong Zhou, Cunyuan Zhu, Kuanguo Li, Xinyan Yang, and Fabao Zhang, Modes conversion due to plasmons induced transparency, Physics Letters A, 2019, 383: 1520-1525.
5 Wanxia Huang*, CunYuan Zhu, Maosheng Wang, Kuanguo Li, Jianping Shi, and Fabao Zhang, Plasmon-induced transparency in ring-bar meta-atom, AIP Advances 2018, 8: 035202.
6 Wanxia Huang*, Guoren Zhao, Juanjuan Guo, Maosheng Wang, and Jianping Shi, Nearly perfect absorbers operating associated with Fano resonance in the infrared range, Chinese Physics Letters, 2016, 33 (8): 088103-1-088103-4
7 Wanxia Huang*,Juanjuan Guo, Maosheng Wang, and Guoren Zhao, Sensor based on Fano resonances of plane metamaterial with narrow slits, Physics Letters A, 2017,381: 909-912.
8 Wanxia Huang*, Fano-resonance of a planar metamaterial, Chinese Physics Letters, 2013, 30 (7): 077308-1-077308-3
9 Wanxia Huang,Yi Zhang, Xiamei Tang, Lisha Cai,Junwei Zhao, Lin Zhou, Qianjin Wang, Chengping Huang, Yongyuan Zhu*, Optical properties of a planar metamaterial with chiral symmetry breaking, Optics Letters, 2011, 36 (17):3359-3361
10 Wanxia Huang, Qianjin Wang, Xiaogang Yin, Chengping Huang, Huang Huang, Yumin Wang, Yongyuan Zhu*, Optical resonances in a composite asymmetric plasmonic nanostructure, Journal of Applied Physics, 2011, 109 (11): 114310-1-114310-6
11 Wanxia Huang, Xiaogang Yin*, Chengping Huang, Qianjin Wang, Tengfei Miao, Yongyuan Zhu*, Optical switching of a metamaterial by temperature controlling, Applied Physics Letters, 2010, 96 (26): 261908-1-261908-3
12 Wanxia Huang, Qinmou Wang*, A quantum dynamical mode for the control of decoherence, Communications in Theoretical Physics, 2005, 43 (1): 59-64
13 Juanjuan Guo, Maosheng Wang*, and Wanxia Huang, Optical properties of a three-dimensional chiral metamaterial, Chinese Physics B, 2017, 26 (12): 124211.
14 Hexiu Xu, Shiwei Tang, Guangming Wang, Tong Cai,Wanxia Huang, Qiong He, Shulin Sun, and Lei Zhou, Multifunctional microstrip array combining a linear polarizer and Focusing Metasurface, IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION, 2016, 64 (8): 3676-3682.
15 Zewen Zuo*, Kai Zhu, Guanglei Cui, Wanxia Huang,Jun Qu, Yi Shi, Yousong Liu, Guangbin Ji, Improved antireflection properties and optimized structure for passivation of well-separated, vertical silicon nanowire arrays for solar cell applications, Solar Energy Materials and Solar Cells, 2014, 125: 248-252
16 Weina Cui, Yongyuan Zhu*,Wanxia Huang, Hongxia Li, subwavelength plasmon solitons in a one-dimensinal chain of coupled metallic nanorods, Physical Review E, 2012, 86 (6): 066604-1-066604-8
17 Lin Zhou, Qianjin Wang, Shan Wu,Wanxia Huang, Chengping Huang, Yongyuan Zhu*, Hybrid of surface plasmon polaritons and waveguide resonances through double-layer metallic gratings, Journal of the Optical Society of America B-Optical Physics, 2011, 28 (3): 587-591
18 Xiaogang Yin*, Chengping Huang, Qianjin Wang,Wanxia Huang, Lin Zhou, Chao Zhang, Yongyuan Zhu*, Fanolike resonance due to plasmon excitation in linear chains of metal bumps, Optics Express, 2011, 19 (11): 10485-10493
19 Shan Wu, Pengfeng Guo,Wanxia Huang, Shoujun Xiao, Yongyuan Zhu*, Dielectric thickness detection sensor based on metallic nanohole arrays, Journal of Physical Chemistry C, 2011, 115 (31): 15205-15209
20 Yumin Wang, Xiaodong Su*, Yongyuan Zhu*, Qianjin Wang, Dongliang Zhu, Junwei Zhao, San Chen,Wanxia Huang, Shan Wu, Photocurrent in Ag-Si photodiodes modulated by plasmonic nanopatterns, Applied Physics Letters, 2009, 95 (24): 241106-1-241106-3
21 任佳琪;李飞祥;彭雪城;黄万霞*;当光片的宽度和振幅对阻尼振动半衰期测量的影响,物理实验,2020,40 (3): 43-47
22 李朝刚;羿世凡;彭雪城;黄万霞*;不同条件下阻尼片对音叉受迫振动的影响,大学物理,2020,39 (5): 13-18
23 任佳琪;江野;汪茂胜;黄万霞*;曲率半径的复数求法,大学物理,(已接受)
24 黄万霞* ;叶欢;尹杰;汪茂胜;RLC耦合回路的另一种描述,大学物理,2019,38 (6):13-15
25 黄万霞* ;简正坐标的另一种求法,大学物理,2008,27 (9):14-15