华南师范大学信息光电子科技学院

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郭健平

华南师范大学信息光电子科技学院/副高2015-12-01 00:00:00来源:华南师范大学评论:0收藏本文

 名:郭健平

 称:高级实验师

联系方式:guojpgz@163.com

 


教育背景及工作经历:

2000年至今 华南师范大学信息光电子科技学院教师

教育背景:

2007/09-2013/12华南师范大学 微电子与固体电子学工学博士

 

科研与教学情况

目前主要研究兴趣集中在人工智能超构材料光电技术、光纤通信等领域。曾主持华南师范大学青年教师科研培育基金基于表面等离子激元的可控光子功能器件研究No. 2012KJ002)一项。作为项目组成员,参与了国家973子课题红外单光子探测技术、广东省十五重大科技专项量子密码探测器控制驱动器 广州市重大科技攻关项目光量子保密通信发射接收光端机 广东省工业攻关项目电容积分式红外单光子探测器。参与国家基金7项,主要包括高性能积分门控红外单光子探测器的研究No.61108039)、基于光微流控技术的等离子体共振波导光子器件的研究(No.61275059)、高掺杂半导体微结构在太赫兹波段表面等离子体共振效应及其器件应用(No.61201102)、石墨烯超材料中类电磁诱导透明的产生调控与器件设计(No. 61774062)等课题。

本科生教学主要负责《微机原理与接口技术实验》《光纤通信实验》及《通信原理实验》课程教学。

 

主要学术论文(第一作者或通信作者)

1. Bootstrap sampling style ensemble neural network for inverse design of optical nanoantennas, Optics Communications, 2024, 557, 130296

2. Design of chiral plasmonic metamaterials based on interpretable deep learning. Journal Of Physics D-Applied  Physics, 2024, 57(4), 045103

3. Innovative design of metamaterial perfect absorbers via residual fully connected neural network modeling, Optics Communications, 2023, 545, 129732

4. Dynamic Relationship Between Plasmonic Metasurface Geometric Parameters and Transmission Spectrum: A New Perspective Based on Multifractal Analysis and Prediction. Plasmonics.2023. 18 (4) ,1499-1510

5. Inverse design of slow light devices at telecommunication band based on metamaterials using a deep learning attempt. Optics Communications,2023,537, 129456.

6. Metasurface meta-atoms design based on DNN and LightGBM algorithms. Optical Materials, 2023, 136, 113471.

7. Plasmonic Metamaterial Absorbers Design Based on XGBoost and LightGBM Algorithms. Plasmonics,2022,1-11.

8. Band-tunable achromatic metalens based on phase change material. Optics Express, 2022, 30, 17541-17553.

9. Switchable Multifunctional Meta-Surface Composed by Dielectric-Metal Hybrid Antenna Array Architecture. Nanomaterials, 2021, 11, 2862.

10. Goos–Hänchen and Imbert–Fedorov shifts of reflected rotating elliptical Gaussian beams from surfaces coated with cross-anisotropic metasurfaces. Results in Physics,2021,27, 104548

11. Effect of the spectral optical vortices on the chirped ring symmetric Airy beam. Optics Communications,2021,499, 127259.

12. Design of a multi-bits input optical logic device with high intensity contrast based on plasmonic waveguides structure.Optics Communications,2019, 430, 112-118.

13. Plasmonics refractive index sensor based on tunable ultra-sharp Fano resonance. Optoelectronics letters,2018,14, 421-424.

14. Index sensing characteristics of the plasmonic sensor based on metal-insulator-metal waveguide-coupled structure. Optoelectronics Letters, 2013, 9, 321-324. 

15. A plasmonic electro-optical variable optical attenuator based on side-coupled metal–dielectric–metal structure. Optics Communications,2013,294, 405-408.

16. Tunable plasmonic filter and variable optical attenuator based on ring metal–insulator–metal waveguide. The Journal of Engineering, 2013, 15-17.

 

主要授权专利:

1. 发明名称光学纳米天线结构预测网络训练方法、预测方法及装置专利号:ZL 2023 1 1175592.6,授权公告日:20240109

2. 发明名称:基于多头串联神经网络的层状纳米光子学器件设计方法,专利号:ZL 2023 1 0579500.,授权公告日2023811

3. 发明名称:一种多逻辑功能的太赫兹微纳光学逻辑器件及其操作方法,专利号:ZL 2021 1 0495041.2,授权公告日20230321

4. 发明名称:一种电控可变逻辑功能器件及操作方法,专利号:ZL202010629845.2,授权公告日2021420

5. 发明名称:用于时分波分复用光纤通信实验教学的装置、方法及系统发明专利,专利号ZL 201710534791.X,授权公告日2019419

 

出版教材情况

1. 高等院校光电专业实验系列教材-光通信与自动控制实验分册(ISBN978-7-5668-2130-0),20179月,暨南大学出版社,广州

 


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