中文摘要：

随着光纤通信容量的不断增加,基于少模光纤的模分复用技术由于其多信道复用、高频谱效率及低非线性效应成为目前提高光纤通信容量的研究热点.本文推导得到了适用于少模光纤中高阶模式弯曲损耗的计算公式,系统研究了下陷层辅助弯曲不敏感抛物线型少模光纤的主要参数（包括芯层半径、芯层到下陷层距离、下陷层宽度及下陷层折射率差）对其弯曲损耗特性的影响.研究表明：对于少模光纤,模式阶数越高,光纤的弯曲敏感性越高;随纤芯与下陷层间距离的变化,光纤各阶模式的弯曲损耗均存在一个最小值.本文结论对弯曲不敏感少模光纤的设计、制造及少模光纤弯曲性能优化具有指导意义。

英文摘要：

With the rapid increase of the capacity of optical fiber transmission system, the mode division multiplexing transmission system using few-mode fibers（FMFs）（which provides the multi-channel multiplexing, high efficiency of frequency spectrum, and low nonlinear effects） becomes a research focus to upgrade the capacity of the optical communication.In this paper, an analytical expression of bending loss for each high-order mode of parabolic-index FMFs is deduced based on the perturbation theory and verified by finite element method. Based on this expression, the influence of four key structure parameters of trench-assisted parabolic-index FMFs： i.e. the radius of fiber core, the distance between core and trench, the width of trench, and the refractive index difference of trench, on the bending loss performance are discussed in detail. It is found that, firstly, the sensitivity of the bending loss increases with the increase of mode order of FMFs. Secondly, the smaller the core radius, the smaller the bending loss of each mode-order is, since small core radius leads to a smaller effective mode area, which is beneficial for saving power leakage. Additionally, the effective mode area of LP02 mode is lower than that of LP21 mode, while the bending loss of LP02 mode is higher than that of LP21 mode, this observation is different from other mode-orders. Thirdly, an optimized distance between trench and core for each high-order mode is also investigated for obtaining minimum bending loss, which plays an important role in controlling the bending performance of FMFs. So the higher the mode-order, the smaller the optimized distance between core and trench is, and this observation could be used to optimize the bending loss of the fiber. With the increase of the distance between the core and trench, the effective mode area of high-order mode increases quickly at first, then it is approximately unaltered. The distance between the core and trench is a key factor that influences both the bending loss and the effective mo