\begin{document}$ \tau_{\rm DMGD} $\end{document}), the more complex the algorithm is. Therefore, in order to reduce the complexity of the receiver, it is necessary to use FMFs with low DMGD. The variational method is proposed to analyze any FMFs with higher refractive index of core than that of cladding. The analytical formula of the fundamental mode size, the normalized propagation constant for each of all guided modes, and DMGD relative to the fundamental mode are derived. Moreover, their relationship with the normalized frequency and other fiber manufacturing parameters are given. On this basis, the graded-index FMFs are studied, and the fiber parameters are optimized. The optimization parameters are the difference between the maximum core refractive index and cladding refractive index n1n2 = 0.01, the core radius a = 14 μm, and the paramenter of refractive index distribution α = 1.975. In the optimized FMF, 6 LP modes can be guided and |\begin{document}$ \tau_{\rm DMGD} $\end{document}| is less than 15 ps/km within the C band and L band. In the end, the effects of the fiber manufacturing errors on DMGD are discussed."> Analysis and optimization of few-mode fibers with low differential mode group delay by variational method - 必威体育下载

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    Wang Jian, Wu Chong-Qing
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    • Abstract views:4199
    • PDF Downloads:84
    • Cited By:0
    Publishing process
    • Received Date:29 November 2021
    • Accepted Date:04 January 2022
    • Available Online:28 January 2022
    • Published Online:05 May 2022

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