验证二氧化硅/掺二氧化硅和塑料光纤中的泄漏损耗、双折射、非线性参数和模式总数,以提高光纤系统效率

R. T. Prabu, Dhilipkumar Santhakumar, Ata Kishore Kumar, Sangeetham Dharuman Lalitha, Jeneetha Jebanazer, Salem Balamurugan Mohan, Aisha abd Rahman Ahmed
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摘要

本文对二氧化硅/二氧化硅掺杂光纤和塑料光纤的泄漏损耗、双折射、非线性参数和模式总数进行了验证,以提高光纤系统的效率。演示了在不同环境温度下二氧化硅/掺二氧化硅/塑料光纤的信号功率损耗。根据二氧化硅/掺二氧化硅/塑料光纤纤芯半径,明确了纤芯中光纤模式的估计数量。研究了光纤双折射与二氧化硅/掺二氧化硅/塑料光纤纤芯半径的关系。明确了二氧化硅/二氧化硅掺杂/塑料光纤的有效折射率与环境温度变化的关系。根据掺杂二氧化硅的光纤与不同温度变化下的掺杂浓度比,证明了非线性参数。研究了掺硅光纤的有效面积截面与不同温度变化下的掺杂浓度比的关系。根据硅玻璃纤维/掺硅光纤/塑料光纤的工作波长,对光纤损耗进行了预测。此外,还澄清并研究了硅玻璃纤维/掺硅光纤/塑料光纤的预测光纤损耗与纤芯半径的关系。
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Verified of leakage loss, birefringence, nonlinear parameters and total number of modes in silica/silica doped and plastic fibers for fiber system efficiency improvement
This paper has clarified verified of leakage loss, birefringence, nonlinear parameters and total number of modes in silica/silica doped and plastic fibers for fiber system efficiency improvement. The signal power loss is demonstrated with silica/silica doped/plastic fibers at various ambient temperatures. The estimated number of fiber modes is clarified in the core against silica/silica doped/plastic fiber core radius. The fiber birefringence is studied against silica/silica doped/plastic fiber core radius. The silica/silica doped/plastic fibers effective refractive index is clarified versus ambient temperature variations. The nonlinear parameter is demonstrated based silica doped fiber against the dopant concentration ratio with different temperature variations. The effective area cross section is studied based silica doped fiber against the dopant concentration ratio with different temperature variations. The predicted fiber loss is demonstrated against the fiber operating wavelength for silica glass fibers/silica doped fibers/plastic fibers. As well as the predicted fiber loss is clarified and studied versus fiber core radius for silica glass/silica doped/plastic fibers.
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