集成与超构光子芯片实验室隶属武汉大学动力与机械学院。课题组致力于探索微纳尺度光子学的科学与技术,
聚焦集成光子学与超构光子学前沿领域。研究兴趣涵盖微纳尺度光与物质相互作用、片上光镊、
集成光芯片与光电超表面芯片,致力于推动光子学基础研究与光通信、精密传感及生物医学应用的深度融合,以超构结构与光子芯片,雕刻光。
The Integrated and Meta Photonics Lab is in the School of Power and Mechanical Engineering at Wuhan University.
Our group explores the science and technology of light at the micro/nanoscale, with a focus on
integrated photonics and meta-photonics. Our research interests include light–matter interactions,
on-chip optical tweezers, integrated photonic chips, and electrooptic metasurfaces,
bridging fundamental physics and applications in optical communications, precision sensing,
and biomedical technology, sculpting light with meta-structures and photonic chips.
探索光镊、光热、光声效应等微纳尺度下光与物质相互作用的基础物理,实现粒子精准捕获与非接触操控。Probing the physics of optical trapping, photothermal, and photoacoustic effects for precision particle manipulation at the micro/nano scale.
利用超表面结构光场与自由曲面波导倏逝场,实现片上粒子三维捕获、分选与单分子传感。Harnessing metasurface-structured light and freeform waveguide evanescent fields for on-chip 3D trapping, sorting, and single-molecule sensing.
原创级联模式转换干涉仪,实现频谱形状与自由谱范围独立调控;覆盖SOI、SiN、LiNbO₃多平台。Novel cascaded-mode interferometers for independent spectral and temporal engineering across SOI, SiN, and LiNbO₃ platforms.
SOI / SiN / LiNbO₃Cascaded-modeSpectral Engineering
电光材料与超表面耦合,实现超高速可编程波前调控,探索高带宽光通信与LiDAR应用。Coupling electro-optic materials with metasurfaces for ultrafast programmable wavefront control in communications and LiDAR.
Electro-opticLiNbO₃Dynamic Metasurface
新闻动态Latest News
May92026
预印本Preprint
课题组关于纳米光子学中拉曼抑制的最新研究成果以预印本形式发布于 arXiv。New preprint on Raman suppression in nanophotonics posted on arXiv.
May272026
招生Recruitment
课题组2026年秋季诚招博士研究生2名及博士后1名,欢迎对集成光子学、超构光子学方向感兴趣的同学发邮件联系:jinslu@whu.edu.cnWe are recruiting 2 PhD students and 1 postdoc for Fall 2026. Candidates interested in integrated photonics or meta-photonics, please email: jinslu@whu.edu.cn
