近红外透明导电氧化物超透镜研究

项目名称： 近红外透明导电氧化物超透镜研究

项目编号： No.61275114

项目类型： 面上项目

立项/批准年度： 2013

项目学科： 无线电电子学、电信技术

项目作者： 戴宁

作者单位： 中国科学院上海技术物理研究所

项目金额： 82万元

中文摘要： 利用金属材料表面等离子体共振可有效抑制倏逝波衰减，获得可突破衍射极限的深亚波长分辨超透镜，但其分辨率受制于金属本身的损耗。为探索新型超透镜材料体系，进一步提高近红外超透镜分辨率，本项目计划研究利用磁控溅射和掺杂技术制备光电性质可调的透明导电氧化物（ITO、AZO和GZO等），利用其近红外低损耗和介电常数实部可正可负的特点，实现完全基于叠层透明导电氧化物材料的分辨率优于1/14波长的近红外超透镜。在此基础上进一步探索透镜的电场调控，以及基于双曲色散的双曲透镜远场成像。通过数值模拟设计、磁控溅射、微纳加工和近场探测等理论和实验手段，揭示透明导电氧化物材料特性与近红外超透镜工作波长、分辨能力之间的关系，电场对它们的影响，探索将近场倏逝波转换为传导播波的可能性。通过本研究有助于克服金属超透镜损耗导致的分辨率和光亮度限制，显著提升红外光谱成像质量，促进材料、生物和医药研究。

中文关键词： 透明导电氧化物；近红外；超透镜；；

英文摘要： Decay of evanescent waves can be effectively suppressed by surface plasmon polaritons on the surface of metals, which makes the superlenses go beyond the diffraction limit, though the resolution is limited by the loss of metals. In order to explore the novel materials for near-infrared superlenses and further improve their resolution, this project plans to prepare the transparent conducting oxides (TCOs, such as ITO, AZO, and GZO) with the tunable optical properties using magnetron sputtering and doping. Since the real part of the TCOs permittivity is either negative or positive with a low loss in the near-infrared, the superlens with a resolution superior to 1/14 of wavelength can be realized based on the all-TCOs structures. The electric control and the hyperlens originating from the hyperbolic dispersion will be also studied. With the aid of numerical calculations, magnetron sputtering, micro/nanofabrication, and near-field probing, the influences of the properties of TCOs on superlensing wavelength, resolution will be investigated as well as the electric-field tunability and the possibility of propagating waves converted from evanesent waves. This study benefits to overcome the resolution and the brightness limit of metallic superlenses and improve the near-infrared spctroscopy and imaging, which may acceler

英文关键词： Transparent conducting oxides；Near-infrared；Superlens；；