Zeng Jie, Liang Da-kai, Zeng Zhen-wu, Du Yan
The Aeronautical Science Key Laboratory for Smart Material and Structures, Nanjing University of Aeronautics and Astronautics, China.
Guang Pu Xue Yu Guang Pu Fen Xi. 2006 Apr;26(4):723-7.
The principle of optic fiber surface plasmon resonance sensor is discussed in detail based on the electromagnetic theory and radial theory in the present paper. The relationship between SPR spectrum resonance wavelength and liquid refractive index is also analyzed. Through relative spectrum measurement technology, SPR spectrum curves, whose resonance wavelength increases with increasing liquid refractive index, were obtained for eight different kinds of chemical liquids. The measurement of concentration of mixed solution including ethanol and glycol was performed by analyzing the spectrum attribute. The experimental results show that the sensing system features simple structure and all light transmitted by fiber. It not only realizes rapid, accurate and real time measurement for target medium, but also can be used in some special situations and easily realize long distance measurement.
本文基于电磁理论和径向理论详细讨论了光纤表面等离子体共振传感器的原理。还分析了SPR光谱共振波长与液体折射率之间的关系。通过相对光谱测量技术,获得了八种不同化学液体的SPR光谱曲线,其共振波长随液体折射率的增加而增加。通过分析光谱属性对乙醇和乙二醇混合溶液的浓度进行了测量。实验结果表明,该传感系统结构简单,光纤全光传输。它不仅实现了对目标介质的快速、准确和实时测量,还可用于一些特殊情况,且易于实现远距离测量。