Mathematical modelling of fiber optic cable with an electro-optical cladding by incommensurate fractional-order differential equations

An International Journal of Optimization and Control: Theories & Applications (IJOCTA) Pub Date : 2023-12-12 DOI:10.11121/ijocta.1369

Büşra Ersoy, Bahatdin Daşbaşı, Ekin Aslan

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Abstract

In this study, the mathematical model through incommensurate fractional-order differential equations in Caputo meaning are presented for time-dependent variables given as the numerical aperture, critical angle, and acceptance angle characteristics of a fiber optic cable with electro-optical cladding. The qualitative analysis including the existence and stability of the equilibrium points of the proposed model has been made according to the used parameters, and then, the results obtained from this analysis are supported through numerical simulations by giving the possible values that can be obtained from experimental studies to these parameters in the model. In this way, a stable equilibrium point of the system for the core refractive index, cladding refractive index and electrical voltage is obtained according to the threshold parameter. Thus, the general formulas for the critical angle, acceptance angle and numerical aperture have been obtained when this fixed point is stable.

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用不通量分数阶微分方程为带电光包层的光缆建立数学模型

在本研究中，通过卡普托意义上的不相容分数阶微分方程，针对带有电光包层的光缆的数值孔径、临界角和接受角特性等随时间变化的变量，提出了数学模型。根据所使用的参数，进行了定性分析，包括所提议模型平衡点的存在性和稳定性，然后，通过数值模拟，为模型中的这些参数提供了从实验研究中可能获得的值，从而支持了从该分析中获得的结果。这样，根据阈值参数，就可以得到系统的核心折射率、包层折射率和电压的稳定平衡点。因此，当这个固定点稳定时，临界角、接受角和数值孔径的一般公式也就得到了。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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An International Journal of Optimization and Control: Theories & Applications (IJOCTA)

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