搜索结果: 1-15 共查到“光电子技术 SPIE”相关记录38条 . 查询时间(0.123 秒)
近日,2022年度国际光学工程学会光学与光子学教育奖学金(SPIE Optics&Photonics Education Scholarship)评选结果揭晓,南京理工大学电子工程与光电技术学院2017级博士生范瑶荣获该奖项。
Nanoscale systems have peculiar optical properties, deriving from confinement in one or more dimensions, efficient energy and charge transfer and enhanced role of interfaces. As nanophotonic propertie...
2018年SPIE透镜设计与光学工程的现状会议(SPIE Current Developments in Lens Design and Optical Engineering XIX)
2018年 SPIE 透镜设计与光学工程的现状 会议
2017/11/27
Optical design is a fascinating activity, ranging as it does from lens design and modeling with the help of the immensely powerful design software currently available, to the semi-intuitive art of cre...
2018年SPIE太阳能转换新型光子技术会议(SPIE Novel Photonic Technologies for Solar Energy Conversion)
2018年 SPIE 太阳能转换新型光子技术 会议
2017/11/27
This conference centers on discovering and exploring novel concepts in photonics with significant potential to improve the performance of photovoltaic (PV) devices, typically referred to as solar cell...
2018年SPIE医药,工业和国家安全的辐射探测器会议(SPIE Radiation Detectors in Medicine,Industry,and National Security XIX)
2018年 SPIE 医药,工业和国家安全的辐射探测器 会议
2017/11/27
Radiation detectors are used to detect energetic ionizing radiation such as: gamma rays, x-rays, protons, alpha particles, neutrons, and beta particles (electrons and positrons). Radiation-detector te...
2018年SPIE结构光会议(SPIE Structured Light 2018)
2018年 SPIE 结构光 会议
2017/10/27
SPIE Structured Light 2018 is a cross-disciplinary symposium on the technologies of structured light and bio-imaging. The event combines important topical areas including structured optical fields, op...
2018年SPIE光整形研讨会(SPIE Light Shaping Workshop)
2018年 SPIE 光整形 研讨会
2017/10/27
This Workshop will provide an overview of various methods of spatial light shaping, covering refractive freeform surfaces, diffractive beam splitters, diffusers, and multichannel array-type components...
2018年SPIE有机电子与光子学会议(SPIE Organic Electronics and Photonics:Fundamentals and Devices)
2018年 SPIE 有机电子与光子学 会议
2017/10/27
Organic materials are interesting for a myriad of photonic and optoelectronic applications due to their tunability of key electronic and optical properties, their versatility of processing, the softne...
2018年SPIE硅光子学会议(SPIE Silicon Photonics: from Fundamental Research to Manufacturing)
2018年 SPIE 硅光子学 会议
2017/10/27
These are exciting times for silicon photonics. The industrial supply chain is being established rapidly, from PIC design tools to PIC manufacturing, through to test and packaging. This enables compan...
2018年SPIE先进微/纳米光学和光子学制造技术会议(SPIE Advanced Fabrication Technologies for Micro/Nano Optics and Photonics XI)
2018年 SPIE 先进微/纳米光学和光子学制造技术 会议
2017/10/27
2018年SPIE先进微/纳米光学和光子学制造技术会议(SPIE Advanced Fabrication Technologies for Micro/Nano Optics and Photonics XI)。
2018年SPIE工程纳米结构的光子和声子性质会议(SPIE Photonic and Phononic Properties of Engineered Nanostructures VIII)
2018年 SPIE 工程纳米结构的光子和声子性质 会议
2017/10/27
2018年SPIE工程纳米结构的光子和声子性质会议(SPIE Photonic and Phononic Properties of Engineered Nanostructures VIII)。
2018年SPIE光纤激光器和玻璃光学会议(SPIE Fiber Lasers and Glass Photonics:Materials through Applications)
2018年 SPIE 光纤激光器和玻璃光学 会议
2017/10/27
The scope of the "Fiber Lasers and Glass Photonics: Materials through Applications" conference is broad, aiming to promote synergies and support for a multidisciplinary audience interested in being up...
The optical sensing and detection conference will emphasize the principles, characteristics and performance of photonic sensor and measurement systems. The former focuses on new and advanced optical- ...
2018年SPIE光电子,光子材料和器件会议(SPIE OPTO 2018)
2018年 SPIE 光电子,光子材料和器件 会议
2017/10/26
SPIE OPTO 2018 addresses the most current developments and research in a broad range of optoelectronic technologies and their integration into a variety of industrial and non-industrial applications. ...
2018年SPIE激光谐振器,微谐振器和光束控制会议(SPIE Laser Resonators,Microresonators,and Beam Control XX)
2018年 SPIE 激光谐振器,微谐振器和光束控制 会议
2017/10/26
2018年SPIE激光谐振器,微谐振器和光束控制会议(SPIE Laser Resonators,Microresonators,and Beam Control XX)。