韦中超
华南师范大学信息光电子科技学院/正高2021-03-01 17:41:00来源:华南师范大学评论:0收藏本文
学历职称: 博士、教授、博士生导师
学科专业: 光学、光学工程、电子信息
电子邮箱: wzc@scnu.edu.cn
个人主页: www.scholat.com/weizhongchao
办公地址:大学城校区理四栋327房
个人信息
教育背景:北京师范大学物理学士,中山大学光学博士(硕博连读),美国中佛罗里达大学(University of Central Florida)光学与光子学院及化学系博士后。
教学方面:先后主讲本科《应用光学》《激光原理》《光电检测技术》《光电综合设计》及研究生《光电检测与成像》《激光光谱技术与应用》等课程。
科研方面:曾多年从事超快激光光谱、光子晶体的实验研究。近年来专注于人工微结构材料的特性与器件研究。内容主要包括(1)光学超构材料、混合电磁材料的特性研究与器件实现;(2)光学超构表面,如平面透镜,完美吸收器的形成机理;(3)石墨烯材料的物理特性及光子器件研究;(4)类电磁诱导透明效应、广义Snell定律等物理特性研究等。
主持、参与国家级科研项目十多项;发表SCI论文70余篇;OSA、IOP等多家学术出版集团审稿人。
科研项目
[01]国家自然科学基金,61774062,石墨烯超材料中类电磁诱导透明 的产生调控与器件设计,2018/01-2021/12,主持
[02]广东省自然科学基金,时空超表面构建研究 2021/04-2024/04,主持
[03]国家自然科学基金,11374107,多联通波导网络中的电磁波传输 特性及机理研究,2014/01-2017/12,参加
[04]国家自然科学基金,61275059,基于光微流控技术的等离子体共振波导光子器件的研究,2013/01-2016/12,参加
[05]国家自然科学基金,61078064,多道偏振近场光学显微镜及在多色量子点标记TCR/CD3纳米微域研究中的应用,2011/01-2013/12,参加
[06]国家自然科学基金,60978065,多道偏振扫描近场光学显微成像系统结合量子点标记TCR/CD3特异性识别及信号传导分子机制,2010/01-2010/12,参加
[07]广州市科技计划项目,2010KP043,光子晶体—引发光通信技术的新革命,2010.08-2011.07. 主持
[08]国家自然科学基金,60908040,大体积,高质量三位光物质的制备及其应用,
2010/01-2012/12,参加
[09]国家自然科学基金,60747001,数字全息相位重构精度问题的研究,
2008/01-2008/12,参加
[10]国家自然科学基金,10404007,量子信息过程中的无纠缠量子非局域性,
2005/01-2007/12,参加
[11]国家自然科学基金,10347108,生物系统中噪声效应的研究 ,
2004/01-2004/12,参加
近期论文(*为通讯作者,#为并列第一作者)
[01] Wei,Zhongchao* et al. Near-infrared thermally modulated varifocal metalens based on the phase change material Sb2S3.
Optics Express, 2021, 29(5): 7925--7934
[02] Wei,Zhongchao* et al. Broadband Filter and Adjustable Extinction Ratio Modulator Based on Metal-Graphene Hybrid Metamaterials.
Nanomaterials, 2020, 10, 1359
[03] Wei,Zhongchao * et al. A Thermal Tuning Meta-Duplex-Lens (MDL): Design and Characterization.
Nanomaterials, 2020, 10(6),1135
[04] Wei,Zhongchao* et al. Efficient point-by-point manipulated visible meta-vortex-lenses with arbitrary orbital angular momentum.
Nanotechnology, 2019, 31(3): 035702
[05] Wei,Zhongchao * et al. Dynamically Temperature-Voltage Controlled Multifunctional Device Based on VO2 and Graphene Hybrid Metamaterials: Perfect Absorber and Highly Efficient Polarization Converter.
Nanomaterials, 2019,9(8): 1101
[06] Wei,Zhongchao * et al. A Tunable Graphene 0-90° Polarization Rotator Achieved by Sine Equation Voltage Adjustment.
Nanomaterials, 2019, 9(6): 849
[07] Wei,Zhongchao * et al. Dynamically tunable resonant strength in electromagnetically induced transparency (eit) analogue by hybrid metal-graphene metamaterials.
Nanomaterials, 2019, 9(2): 171
[08] Wei,Zhongchao * et al. Broadband zero backward scattering by all-dielectric core-shell nanoparticles.
Optics Express, 2018, 26(22):28891--28901
[09] Wei,Zhongchao * et al. Metalenses Based on Symmetric Slab Waveguide
and c-TiO2: Efficient Polarization-Insensitive Focusing at Visible Wavelengths.
Nanomaterials, 2018, 8(9): 699
[10] Wei,Zhongchao * et al. A dynamically tunable plasmonic multi-functional device based on graphene nano-sheet pair arrays.
Optics Communications, 2018, 415: 130--134
[11] Wei,Zhongchao * et al. High-efficiency, near-diffraction limited, dielectric metasurface lenses based on crystalline titanium dioxide at visible wavelengths.
Nanomaterials, 2018, 8(5): 288
[12] Wei,Zhongchao * et al. Analogue of electromagnetically induced absorption with double absorption windows in a plasmonic system.
PloS One,2017, 12(6): 179609
[13] Wei,Zhongchao # et al. Angular and Wavelength Simultaneous Selection in
Transparent OPVs Based on Near-Infrared Bragg Reflector and Antireflection
Coating.
IEEE Photonics Journal,2016, 9(1): 1--8
[14] Wei,Zhongchao # et al. Analogue electromagnetically induced transparency
based on low-loss metamaterial and its application in nanosensor and slow-light
device.
Plasmonics,2017, 12(3): 641--647
[15] Wei,Zhongchao#, et al. Multifunctional sensors and switch in MDM waveguide with symmetric dual side-coupled nanodisks.
IEEE Photonics Technology Letters, 2016, 28(24):2893--2896
[16] Wei,Zhongchao#, et al. Optical band-stop filter and multi-wavelength channel
selector with plasmonic complementary aperture embedded in double-ring
resonator.
Photonics and Nanostructures-Fundamentals and Applications, 2017, 23: 45--49
[17] Wei, Zhongchao#, et al. Active plasmonic band-stop filters based on graphene metamaterial at THz wavelengths.
Optics Express, 2016, 24(13):14344--14351
[18] Wei,Zhongchao * et al. Analogy of electromagnetically induced transparency in plasmonic nanodisk with a square ring resonator.
Physics Letters A, 2016, 380(1-2): 232--237
[19] Wei,Zhongchao * et al. Enhanced plasmonic band-pass filter with symmetric dual side-coupled nanodisk resonators.
Journal of Applied Physics, 2015, 118(14): 143103
[20] Wei,Zhongchao * et al. Analysis of optical vortices with suppressed sidelobes using modified Bessel-like function and trapezoid annulus modulation structures.
Journal of Optical Society of America, A, 2015, 32(2): 195--203
详细论文发表情况请看:
https://www.researchgate.net/profile/Zhongchao-Wei/research
获批专利
[01] 发明专利(ZL201910016988.3). 一种高效率超表面涡旋聚焦透镜
[02] 发明专利(ZL201710230660.2). 一种大角度离轴聚焦平面透镜
[03] 实用新型专利(ZL201820689446.3). 超表面透镜
[04] 实用新型专利(ZL201520267255.4). 太阳自动跟踪系统
[05] 实用新型专利(ZL201320244117.5). 一种智能控制养植平台
获奖情况
2016年度教学工作先进个人
2015年华南师范大学教学成果二等奖
2014年全国大学生光电设计竞赛三等奖 指导教师
2011-2012学年度大学生创新性实验计划项目优秀指导教师
2006年度教学工作优秀奖
2005-2006学年度课堂教学质量优秀教师
欢迎从事博士后研究;欢迎报考光学工程、光学、材料物理与化学、电子信息方向的研究生;欢迎本科生参与科研。
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