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机构地区:[1]北京交通大学电子信息工程学院,北京100044
出 处:《北京交通大学学报》2006年第5期37-40,62,共5页JOURNAL OF BEIJING JIAOTONG UNIVERSITY
基 金:国家"863"计划资助项目(2002AA312190)
摘 要:采用微扰法,从FBG受到应力产生应变以后模式场变化的角度,探讨了传输常数和有效折射率的变化,同时对FBG的应变灵敏度系数得出了更精确的结果.研究发现,在1 520 nm到1 610nm波长范围内,轴向应变灵敏度系数介于0.784 4到0.784 6之间,横向应变灵敏度系数介于0.706 5到0.706 7之间,波长漂移跟应变大小有很好的线性关系,波导效应引起的波长漂移是应变的二阶小量,数值很小,对于FBG受轴向应力的情形可以忽略.FBG中心波长漂移的应变灵敏度系数跟布喇格波长的应变灵敏度系数近似相等.In this paper, perturbation method is introduced to discuss the variety of the propagation constant and the effective index in detail according to the change of the mode field of the FBG under strain, which gives a more accurate result of the strain sensitivity coefficients. The results show that in the wavelength range of 1 520 nm to 1 610 nm, the longitudinal strain sensitivity is between 0. 784 4 and 0. 784 6, and the transverse longitudinal strain sensitivity is between 0. 706 5 and 0. 706 7. The wavelength movement is perfectly in proportion to the strain and the wavelength movement from waveguide effect is the second power of strain. Its value is minute and can be defaulted when FBG is in longitudinal strain field. It is also found that the movement of center wavelength of FBG is approximately equal to the movement of resonance wavelength of FBG.
关 键 词:光纤传感器 应变传感器 微扰法 光纤布拉格光栅(FBG)
分 类 号:TN252[电子电信—物理电子学] TP212.14[自动化与计算机技术—检测技术与自动化装置]
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