中国材料大会暨世界材料大会2024

光子材料与器件指发射、探测和操控光的材料与器件，我们将聚焦在亚波长光学材料和器件、光子集成芯片材料与器件、光子材料理论与表征三个专题，其研究内容包括但不限于:
1、低维材料极化激元如等离激元、声子极化激元、激子极化激元等的高效激发、多维度调控等光学行为，光子晶体、超材料和超表面等纳米光学材料、结构和器件的设计和应用等；
2、面向光子集成芯片的光子材料和器件研究，如基于介质材料、三五族材料、硅材料和铌酸锂等的光子材料、器件和集成，基于低维稀土掺杂材料等的的光量子技术；
3、纳米光学材料和结构的理论预测，光子晶体的波导理论，纳米光学材料和结构的远场、近场光学表征等。
这将为光子材料与器件领域提供交流平台，推动其在前沿研究如纳米尺度上的光操控、光量子效应、光子集成芯片等领域的进展，并推动光子材料和器件在光子芯片和传感等领域的应用。

Photon materials and devices refer to materials and devices involved in the emission, detection, and manipulation of light. Our focus will be on three thematic areas: sub-wavelength optical materials and devices, integrated optical circuit materials and devices, and the theory and characterization of photon materials, encompassing but not limited to:
Optical behaviors such as efficient excitation and manipulation of low-dimensional material polaritons, such as plasmons, phonon polaritons and exciton polaritons. The design and application of nano-optical materials, structures and devices realated to photonic crystals, metamaterials and metasurfaces.
Research on photonic materials and devices for photonic integrated chips, such as photonic materials, devices and integration based on dielectric materials, three-five family materials, silicon materials and lithium niobate, and optical quantum technology based on low-dimensional rare earth doped materials.
Theoretical predictions of nano-optical materials and structures, waveguide theory of photonic crystals, far-field and near-field optical characterizations of nano-optical materials and structures.
A platform will be developed to facilitate communication within the photon materials and devices field, driving advancements in frontier fields such as optical manipulation, optical quantum effects, photonic integrated chips and beyond at the nanoscale, and propelling the applications of photon materials and devices in fields of photonic chips and sensing.