光子材料与器件是现代光子技术的核心，在光的发射、探测与操控等领域发挥着至关重要的作用。本次会议将围绕光子材料与器件的最新研究进展和未来发展方向，重点探讨以下三个前沿专题：

1.亚波长光学材料与器件：探讨低维材料中的极化激元（等离激元、声子极化激元、激子极化激元等），以及光子晶体、超材料和超表面等纳米光学材料、结构和器件的设计与应用。

2.光子集成芯片材料与器件：关注面向光子集成芯片的光子材料和器件研究，涵盖基于介质材料、三五族材料、硅材料和铌酸锂等的光子材料、器件和集成。

3.光子材料理论与表征：深入研究光学材料和结构的理论预测、光子晶体和超材料的理论设计，以及光学材料和结构的远场、近场光学表征。

本会议旨在搭建高水平学术平台，推动光子材料与器件在纳米光操控、光量子效应、光子集成芯片等前沿领域的突破，并促进其在光子芯片、传感技术等实际应用中的发展，为光电子产业创新提供理论支撑与技术储备。

Photon materials and devices are at the core of modern photonic technology, playing a critical role in light emission, detection, and manipulation. This conference will focus on the latest research advancements and future development directions in photon materials and devices, with an emphasis on the following three cutting-edge topics:

1.Subwavelength Optical Materials and Devices:

Exploring polaritons in low-dimensional materials (e.g., plasmon polaritons, phonon polaritons, exciton polaritons), as well as the design and application of photonic crystals, metamaterials, metasurfaces, and other nanophotonic materials, structures, and devices.

2.Photon-Integrated Chip Materials and Devices:

Focusing on photon materials and devices for integrated chips, including research on dielectric materials, III-V compound semiconductors, silicon materials, lithium niobate, and other material systems for photon material preparation, device development, and chip-scale integration.

3.Photon Material Theory and Characterization:

Conducting in-depth studies on the theoretical modeling and prediction of optical materials and structures, the theoretical design of photonic crystals and metamaterials, and advanced techniques for far-field and near-field optical characterization of optical materials and structures.

上海交通大学

由大会统一出版，详细信息请点击【论文提交】。