A Simplified Coupling Power Model of Single Mode Fiber Fusion at Coupling Length

机译：耦合长度单模光纤融合的简化耦合功率模型

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Fabrications of single mode fiber coupling by heating fibers on a flame are very common and popular. However, controlling the output power of fiber coupling process is neither easy nor similar. Power losses occur at the coupling length due to geometrical change of the fibers after fusion. The power losses will affect sensor devices such as an optical switch. This paper proposes power splitting into the second fiber junction in terms of a new model by deriving the coupling power with two conditions of refractive index changes. First is the change in the vertical part and second is the change in the vertical and horizontal part simultaneously. Both conditions are studied by perpendicular and parallel directions. The model is examined where power absorption and reflection are accumulated by power losses. Simulation result shows that the power increases by superposition wave. These power losses are due to radiation out of the cladding and fiber heating.

机译：通过在火焰上加热纤维的单模光纤耦合的制造非常普遍和流行。但是，控制光纤耦合过程的输出功率既不容易也不相似。由于熔化后纤维的几何变化，电源损耗发生在耦合长度处。功率损耗将影响传感器设备，例如光开关。本文提出了通过使用两个折射率变化的两个条件的耦合功率来分配进入第二纤维结的功率分配到第二纤维结。首先是垂直部分的变化，第二是垂直和水平部分同时的变化。通过垂直和平行方向研究了这两种条件。检查模型，其中功率损耗累积功率吸收和反射。仿真结果表明功率通过叠加波增加。这些功率损耗是由于包层和纤维加热的辐射。

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《Asia International Conference on Modelling Simulation》|2009年||共5页
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中图分类人工智能理论;
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optical fibre cladding; optical fibre couplers; optical switches; refractive index; cladding; coupling length; coupling power model; fiber coupling process; fiber heating; fiber junction; optical switch; power absorption; power losses; power reflection; power splitting; sensor devices; single mode fiber coupling; single mode fiber fusion; superposition wave; coupling power; single mode fiber;

机译：光纤耦合器;光纤耦合器;光开关;折射率;耦合长度;耦合功率模型;光纤耦合过程;光纤加热;光纤连接;光开关;功率损耗;功率反射;电力分裂;传感器装置;单模光纤耦合;单模光纤融合;叠加波;耦合功率;单模光纤;

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1. Mathematical Modeling of random coupling between polarization modes in single-mode optical fibers: XV. Dependence of integral statistical parameters of polarization modes in single-mode optical fibers with random inhomogeneities on the wavelength of light [J] . Malykin GB, Malykin EG, Pozdnyakova VI Optics and Spectroscopy . 2008,第3期

机译：单模光纤中偏振模之间随机耦合的数学建模：XV。具有随机非均匀性的单模光纤中偏振模的积分统计参数对光波长的依赖性
2. Simplified coupling power model for fibers fusion [J] . Saktioto J, Ali J, Fadhali M Opto-electronics review . 2009,第3期

机译：光纤熔合的简化耦合功率模型
3. Mathematical Modeling of Random Coupling between Polarization Modes in Single-Mode Optical Fibers: Integrated Statistical Properties of Polarization Modes of Single-Mode Optical Fibers in the Presence of Random Inhomogeneities [J] . G. B. Malykin, V. I. Pozdnyakova Optics and Spectroscopy . 2000,第1期

机译：单模光纤偏振模之间随机耦合的数学建模：存在随机不均匀性时单模光纤偏振模的综合统计特性
4. A Simplified Coupling Power Model of Single Mode Fiber Fusion at Coupling Length [C] . Saktioto, Jalil Ali, Mohammed Fadhali Asia International Conference on Modeling Simulation . 2009

机译：耦合长度单模光纤融合的简化耦合功率模型
5. Semiconductor lasers for low loss, alignment tolerant coupling to single-mode optical fibers [D] . Vusirikala, Vijayanand 1998

机译：半导体激光器，用于与单模光纤的低损耗，对准公差耦合
6. An Analytical Model for Describing the Power Coupling Ratio between Multimode Fibers with Transverse Displacement and Angular Misalignment in an Optical Fiber Bend Sensor [O] . Wern Kam, Yong Sheng Ong, Sinead O’Keeffe, 2019

机译：描述光纤弯曲传感器中具有横向位移和角错位的多模光纤之间功率耦合比的解析模型
7. A partial coupling power of single mode fiber fusion [O] . Toto Saktioto, Ali Jalil, Abd Rahman Rosly, 2007

机译：单模光纤融合的部分耦合功率
8. Development of Reliable and Efficient Coupling of 1.3 Micrometer Single-Mode Lasers to Single-Mode Fibers [R] . Wang, C. S. , Yen, C. T. , Chiang, K. , 1984

机译：1.3微米单模激光器与单模光纤可靠高效耦合的研究

A Simplified Coupling Power Model of Single Mode Fiber Fusion at Coupling Length

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