多端口单模光纤耦合器技术用于机械微执行器的血流阻尼

2015 10th International Conference on P2P, Parallel, Grid, Cloud and Internet Computing (3PGCIC) Pub Date : 2015-11-04 DOI:10.1109/3PGCIC.2015.150

T. Saktioto, D. Irawan, S. Anita, J. Ali

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引用次数: 2

摘要

我们提出并优化了基于融合和延伸技术的多端口光纤耦合器的光学参数，以支持微致动器器件。利用汉克尔函数和贝塞尔函数推导了光纤间的耦合系数。然而，熔合技术在实验上被描述为延伸速度的函数。在熔合温度为1350℃，延伸速度为125 μm/s的条件下，多纤耦合器获得了良好的性能。在不同的耦合长度下，所提出的耦合系数与经验系数具有较好的精度。通过减小光纤之间的距离，耦合系数呈指数增长。最后，对耦合区变形的微观分析表明，二氧化硅材料具有良好的分散和分布。

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Multiport Single Mode Fiber Coupler Technique for Mechanical Microactuator to Damped Blood Flow

We have proposed and optimize the optical parameters to fabricate multiport fiber coupler to support microactuator device based on fusion and elongation techniques. The coupling coefficient between the fibers was derived by using Hankel and Bessel function. However, the fusion technique was experimentally described as a function of elongation speed. Good performance of multi fiber coupler has been obtained for fabrication parameters of fusion temperature and elongation speed of 1350 oC and 125 μm/s respectively. The proposed coupling coefficient shows a better accuracy with empirical one for various coupling length. The coupling coefficient is exponentially increased by reducing the distance between fibers. Finally, the microscopic analysis of coupling region deformation has shown that the silica material was well dispersed and distributed.

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来源期刊

2015 10th International Conference on P2P, Parallel, Grid, Cloud and Internet Computing (3PGCIC)

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