1X3定向熔接光纤耦合器耦合功率参数的估计

2011 Third International Conference on Computational Intelligence, Modelling & Simulation Pub Date : 2011-09-20 DOI:10.1109/CIMSIM.2011.76

D. Irawan, S. Saktioto, J. Ali, M. Hamdi, H. Hairi

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引用次数: 2

摘要

报道了1X3定向光纤耦合器的耦合特性。采用基于耦合模式理论的传递矩阵法(TMM)计算了耦合区域的功率分布。结果表明，如果三根光纤是电磁隔离的，保持传输常数和光纤之间的距离不变，三根光纤之间的功率分布是周期性归一化的。通过向光纤1发射1mW的输入功率，它将逐渐传输到光纤2，然后传输到光纤3。尽管如此，输入功率将通过向中心光纤2发射功率而对称地分配给另外两根光纤。然而，耦合区内光纤之间的功率交换很大程度上取决于光纤之间的耦合长度和耦合系数。在三维中，耦合系数描述了耦合将其能量传递给其他能量的强度。结果表明，耦合系数越高，传递功率所需的耦合长度越短。

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Estimation of Coupling Power Parameters of 1X3 Directional Fused Fiber Couplers

The coupling characteristics of 1X3 directional fiber coupler are reported. Power distribution in coupling region has been calculated by using Transfer Matrix Method (TMM) based on coupling mode theory. It has shown that if the three fibers are electro magnetically isolated, propagation constant, and separation between the fibers are maintained constant, power distribution among three fibers are periodically normalized. By launching 1mW input power to the fiber 1, it will be transferred gradually to the fiber two then fiber three. Although, the input power will be symmetrically distributed to the two others fiber by launching power to the center fiber 2. However, the power exchange between the fibers in coupling region significantly depends on the coupling length and coupling coefficient between them. It has been shown in 3D that the coupling coefficient describes how strong the coupling can transfer its power to the others. It is found, the higher coupling coefficient, the shorter coupling length is required to transfer power.

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2011 Third International Conference on Computational Intelligence, Modelling & Simulation

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