Optimal design of IRIS-based polarimetric intrinsic fiber optic current sensors

Xiaojun Fang; Claus R.O.

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Optimal design of IRIS-based polarimetric intrinsic fiber optic current sensors

机译：基于IRIS的偏振本征光纤电流传感器的优化设计

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Performance of reciprocity-compensated polarimetric fiber optic current sensors are analyzed for typical low-birefringence fibers. The intensity-based reciprocity-insensitive structure (IRIS) can effectively balance the birefringent and lossy influences in intrinsically low-birefringence fiber-based current sensors, while supplementary techniques such as wavelength control and pole-zero cancellation are needed to eliminate the strong polarization coupling effect in spun fiber-based sensors. It is shown from simulation that the stability of the sensor can be maximized by using the IRIS and a suitable initial birefringence.

机译：针对典型的低双折射光纤，分析了互易补偿偏振光纤电流传感器的性能。基于强度的互不敏感结构（IRIS）可以有效地平衡本征低双折射光纤电流传感器中的双折射和损耗影响，同时还需要诸如波长控制和零极点抵消之类的补充技术来消除强偏振耦合纺成纤维的传感器的效果。从仿真可以看出，通过使用IRIS和适当的初始双折射，可以使传感器的稳定性最大化。

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《Journal of Lightwave Technology》 |1996年第7期|P.1664-1673|共10页
作者
Xiaojun Fang; Claus R.O.;
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正文语种 eng
中图分类无线电电子学、电信技术;
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Optimal design of IRIS-based polarimetric intrinsic fiber optic current sensors

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