D25-光子材料与器件(Photonic Materials and Devices)

光子材料与器件指发射、探测和操控光的材料与器件，我们将聚焦在极化激元材料与器件、光量子材料与器件、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、贵金属等离激元、二维范德华材料极化激元、天然无机晶体中极化激元、有机晶体中极化激元等材料及相关应用，纳米光学结构设计和器件设计等；

2、基于量子点的单光子发射器、基于芯片的光子量子电路、基于自旋的光子量子技术、低维稀土掺杂材料量子器件、以及微波和光域量子态转移和纠缠分布的器件研究等；

3、光学材料和结构的理论预测、光子晶体的波导理论、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、光量子效应等领域的进展，并推动光子材料和器件在探测、通讯、传感等领域的应用。

Photonic materials are materials that emit, detect, or manipulate or control light. We will focus on three topics: polariton materials and devices, quantum photonic materials and devices, and theory and characterization of photonic materials. The research contents include but are not limited to polaritons in two-dimensional van der Waals materials, noble metals, natural inorganic crystals, organic crystals, and related applications, nano-optical structure design and device design, etc.; photon emitters, chip-based photonic quantum circuits, spin-based photonic quantum technologies, low-dimensional rare earth-doped material quantum devices, and device research on quantum state transfer and entanglement distribution in microwave and optical domains; theoretical prediction of optical materials and structures such as the waveguide theory of photonic crystals, the far-field and near-field optical characterization of optical materials and structures. This will provide a communication platform for the field of photonic materials and devices, promoting its progress in cutting-edge research such as light manipulation at the nanoscale, photon quantum effects and the application of photonic materials and devices in detection, communication, sensing and other fields.

戴庆            国家纳米科学中心
李培宁        华中科技大学
许秀来        北京大学
武愕            华东师范大学
陈佳宁        中科院物理所
易骏            厦门大学

国家纳米科学中心、广东粤港澳大湾区国家纳米科技创新研究院

华中科技大学、北京大学、华东师范大学、中科院物理所、厦门大学

戴庆            国家纳米科学中心
13911000644

dairsc@nanoctr.cn