摘要
制造技术与复杂模型、设计工具的进步使微纳结构光学器件的实现成为可能。微纳结构光学器件可用于导光与光的相互作用,液态或气态新型光源和传感器件。IPAS致力于新型光学材料研究与开发,将玻璃工艺和光纤开发有机结合,重点研究微纳结构光纤,光纤表面功能处理和器件开发。介绍了IPAS的研究实力和近年的发展概况,其中包括中红外光学材料、纳米粒子嵌入玻璃材料、新型化学和生物传感器(适用于超低量样本及/或体内样本)、激光器件,以及用于光数据处理的新型高非线性光纤。
Recent advances in fabrication technologies along with a range of sophisticated modeling and design tools are enab- ling the realization of photonic devices with micro and nano scale structure that can be used to interact guided light with light, liquids or gases to create new classes of light sources and sensing devices. IPAS brings together research on the devel- opment of new classes of optical materials with research in glass extrusion and optical fibre development, notably micro and nanostructuring, surface functionalization and device development. This paper will provide an overview of this research capa- bility and describe recent advances, including optical materials for the mid-infrared, nanoparticles embedded within glass, new classes of chemical and biological sensors (suitable for use in ultraqow volume samples and/or in-vivo), laser devices, and tailored nonlinear effects in novel fibres for optical data processing applications.
出处
《光学与光电技术》
2014年第5期1-4,共4页
Optics & Optoelectronic Technology
关键词
新型玻璃与光纤
微结构
传感器
挤压工艺
非线性
emerging glasses and fibres
microstructure
sensor
preform extrusion
nonlinear