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凌芳
[物理与电子工程学院]  [手机版本]  [扫描分享]  发布时间:2023年2月27日
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基本情况

 

   名:

凌芳

   门:

物理与电子工程学院

   别:

出生年月:

1991.12

毕业院校:

四川大学

所学专业:

光学

   

博士

   称:

讲师

教育背景

2019.11-2021.07美国罗切斯特大学,光学,博联合培养

2015.09-2021.09四川大学,光学,博士

2011.09-2015.06宜宾学院,物理学,学士

工作履历

2022.07-  四川轻化工大学,讲师

2021.10-2022.04四川大学,光学工程博士后流动站,博士后

学术兼职

学术组织名称

学术职务







教学工作

光学

研究领域

太赫兹超材料太赫兹源

文章专著/教材

2、论文情况:

[1] Fang Ling, Zheqiang Zhong, Yuan Zhang, Renshuai Huang, and Bin Zhang. Broadband negative-refractive index terahertz metamaterial with optically tunable equivalent-energy level. Optics Express 2018, 26(23): 30085-30099. SCI

[2] Fang Ling, Zheqiang Zhong, Bin Zhang. Cavity-based magnetic metamaterials available from microwave to optical wave by tailoring structural parameters. Journal of the Optical Society of America B 2020, 37(9): 2768-2772. SCI

[3] Fang Ling, Zheqiang Zhong, Renshuai Huang, and Bin Zhang. Dynamic-Shift Single-and Double-Negative Refractive Index in a Novel Three-Dimensional Metamaterial. Plasmonics 2018: 1-7. SCI

[4] Fang Ling, Zheqiang Zhong, Renshuai Huang, and Bin Zhang. A broadband tunable terahertz negative refractive index metamaterial. Scientific Reports 2018, 8(1): 9843. 5. SCI

[5] Fang Ling, Qinglong Meng, Renshuai Huang, and Bin Zhang. The characteristics of thermally tunable multi bands terahertz modulator. Spectroscopy and Spectral Analysis 2017, 37(5): 1334-1338. SCI

[6] Yuan Zhang, Fang Ling, Renshuai Huang R, Zheqiang Zhong, and Bin Zhang. The characteristics of a terahertz filter with three-layer stacked structure. Optik 2018, 168: 847-852. SCI

[7] Yuan Zhang, Fang Ling, Renshuai Huang R, and Bin Zhang. Simple structure THz metamaterial with broadband double-negative refraction. Optical Materials Express 2018, 8(12): 3729-3737. SCI

[8] Hang Wang, Fang Ling, and Bin Zhang. Tunable metasurfaces for independent control of linearly and circularly polarized terahertz waves. Optics Express 2020, 28(24): 36316-36326. SCI

[9] Hang Wang, Fang Ling, Yuan Zhang, Renshuai Huang, Nianchun Sun, and Bin Zhang. Broadband and efficient metasurface for beam bending and superresolution focusing. Superlattices and Microstructures 2019, 130: 512-518. SCI

[10] Heng Zhang, Fang Ling, Yuan Zhang, Hang Wang, and Bin Zhang. A water hybrid graphene metamaterial absorber with broadband absorption. Optics Communications 2020, 463: 125394. SCI

[11] Heng Zhang, Fang Ling, and Bin Zhang. Broadband tunable terahertz metamaterial absorber based on vanadium dioxide and Fabry-Perot cavity. Optical Materials 2021, 112: 110803. SCI

[12] Chunyu Zhang, Fang Ling, and Bin Zhang. Switchable metamaterials for broadband absorption and generation of vector beams. Journal of Optics (2022). SCI

[13] Yiwen E, Yuqi Cao, Fang Ling, and X.-C. Zhang. Flowing cryogenic liquid target for terahertz wave generation. AIP Advances 2020, 10:105119. SCI

[14] Francis Kareem Garriga, Yuqi Cao, E. Yiwen, Fang Ling, Mervin Lim Pac Chong, and Xi-Cheng Zhang. Forward terahertz wave generation from liquid gallium in the non-relativistic regime.  Journal of the Optical Society of America B 2021, 38(12): 3639-3645. SCI

 

研究项目


专利授

1. 一种基于动态调控等效能级的太赫兹宽频带负折射率超材料结构,国家发明专利20181 09545384,排名第二

2. 全波段强磁响应宽频带负磁导率超材料,国家发明专利201910034941X,排名第二

3. 一种基于二氧化钒和法布里-珀罗腔的宽带可调吸收器,国家发明专利202011358644X,排名第四

4. 一种基于二氧化钒和石墨烯的双控宽带THz吸收器国家发明专利2021102929440,排名第五

 

奖励与荣誉

其他情况




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