C+L波段低弯曲损耗非耦合三模组渐变折射率光纤设计

王卓; 崔明杰; 余长源

doi:10.12263/DZXB.20230266

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C+L波段低弯曲损耗非耦合三模组渐变折射率光纤设计

学术论文 | 更新时间：2025-12-08

- C+L波段低弯曲损耗非耦合三模组渐变折射率光纤设计
- Design of Uncoupled Three-Mode-Group Graded-Index Fiber with Low Bending Loss in C+L Band
- 电子学报 2024年52卷第8期页码：2659-2667
- 作者机构：
  
  1.香港理工大学电机及电子工程学系,香港 999077
  2.香港理工大学光子研究院,香港 999077
  3.香港理工大学深圳研究院,广东深圳 518057
- 作者简介：
  
  [ "王卓男，1991年8月出生，湖南桂阳人.华南师范大学特聘副研究员.主要研究方向为微纳光学、光与物质相互作用. E-mail: zhuowang@m.scnu.edu.cn" ]
  [ "崔明杰男，1994年7月出生，广东茂名人.香港理工大学博士生.主要研究方向为特种光纤的设计及其应用.E-mail: mingjie.cui@polyu.edu.hk" ]
  [ "余长源男，1974年3月出生，福建福州人.香港理工大学电机及电子工程学系终身教授.主要研究方向为光子器件及系统、光纤通信和传感器系统、生物医学仪器. E-mail: changyuan.yu@polyu.edu.hk" ]
- 基金信息：
  
  国家重点研发计划(2018YFB1800902)
- DOI：10.12263/DZXB.20230266
  中图分类号： TN253;
- 收稿：2023-03-23，
  
  修回：2023-11-23，
  
  纸质出版：2024-08-25
- 稿件说明：
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王卓, 崔明杰, 余长源. C+L波段低弯曲损耗非耦合三模组渐变折射率光纤设计[J]. 电子学报, 2024, 52(08): 2659-2667.

WANG Zhuo, CUI Ming-jie, YU Chang-yuan. Design of Uncoupled Three-Mode-Group Graded-Index Fiber with Low Bending Loss in C+L Band[J]. Acta Electronica Sinica, 2024, 52(08): 2659-2667.
王卓, 崔明杰, 余长源. C+L波段低弯曲损耗非耦合三模组渐变折射率光纤设计[J]. 电子学报, 2024, 52(08): 2659-2667. DOI：10.12263/DZXB.20230266

WANG Zhuo, CUI Ming-jie, YU Chang-yuan. Design of Uncoupled Three-Mode-Group Graded-Index Fiber with Low Bending Loss in C+L Band[J]. Acta Electronica Sinica, 2024, 52(08): 2659-2667. DOI：10.12263/DZXB.20230266

摘要

光纤是现代通信网络中最为稳定的信号传输媒介，提升光纤模式的数量是满足通信容量日益增加的有效方法.本文设计了低弯曲损耗的非耦合三模组（LP

，LP

）渐变折射率光纤，运用分层分析法给出了渐变折射率光纤中模组的严格截止条件.此外，利用有限元仿真软件求解光纤模式的有效模场面积和弯曲损耗，得到低弯曲损耗条件下在C+L波段（1 530~1 625 nm）传输三模组的设计区间.揭示了纤芯中心折射率凹陷和沟槽层共同作用可促进光纤径向高阶模式的截止.模拟结果表明，所设计光纤的模组间有效折射率差大于等于3×10

-3

，弯曲半径为30 mm时的最大弯曲损耗为1.3 dB/km，符合ITU-T推荐的低弯曲损耗条件.而且，在1 550 nm波长下，模组内简并模有较小的差分模式群时延（≈176 ps/km），可通过4×4多输入多输出技术补偿简并模之间的串扰.该光纤可适用于C+L波段上实现模组间非耦合的空分复用信号传输.

Abstract

Optical fiber is the

most stable medium for signal transmission in modern communication networks. Increasing the number of fiber modes is an effective way to meet the increasing demand for communication capacity. In this paper

a kind of uncoupled three-mode-group (LP

) graded-index fiber with low bending loss is designed. The strict cut-off conditions of the mode groups in the graded-index optical fiber are obtained by using the stratified method. In addition

the effective mode area and bending losses are calculated by a finite element simulation software

and the design region of three-mode-group transmission in the C+L (1 530~1 625 nm) band with low bending loss is obtained. It is revealed that the combined effects of the concave refractive index at the core center and the trench layer can promote the cutoff of radial higher-order modes in the fiber. The simulation results show that the designed fiber has a large effective index difference between mode groups that is ≥ 3×10

-3

and the maximum bending loss is 1.3 dB/km when the bending radius is 30 mm

which meets the low bending loss condition recommended by ITU-T. In addition

at the wavelength of 1 550 nm

the degenerate modes in the same mode group have a relatively small differential mode group delay (≈176 ps/km)

and the crosstalk between degenerate modes can be compensated by 4×4 multi-input multi-output technique. This fiber can be used in the C+L band to realize uncoupled space-division multiplexing signal transmission.

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references

RICHARDSON D J , FINI J M , NELSON L E . Space-division multiplexing in optical fibres [J ] . Nature Photonics , 2013 , 7 : 354 - 362 .

涂佳静 , 李朝晖 . 空分复用光纤研究综述 [J ] . 光学学报 , 2021 , 41 ( 1 ): 0106003 .

TU J J , LI Z H . Review of space division multiplexing fibers [J ] . Acta Optica Sinica , 2021 , 41 ( 1 ): 0106003 . (in Chinese)

TU J J , SAITOH K , KOSHIBA M , et al . Design and analysis of large-effective-area heterogeneous trench-assisted multi-core fiber [J ] . Optics Express , 2012 , 20 ( 14 ): 15157 .

TU J J , SAITOH K , KOSHIBA M , et al . Optimized design method for bend-insensitive heterogeneous trench-assisted multi-core fiber with ultra-low crosstalk and high core density [J ] . Journal of Lightwave Technology , 2013 , 31 ( 15 ): 2590 - 2598 .

SILLARD P , BIGOT-ASTRUC M , MOLIN D . Few-mode fibers for mode-division-multiplexed systems [J ] . Journal of Lightwave Technology , 2014 , 32 ( 16 ): 2824 - 2829 .

SNYDER A W . Coupled-mode theory for optical fibers [J ] . Journal of the Optical Society of America (1917-1983), 1972 , 62 ( 11 ): 1267 .

RYF R , RANDEL S , GNAUCK A H , et al . Mode-division multiplexing over 96 km of few-mode fiber using coherent 6×6 MIMO processing [J ] . Journal of Lightwave Technology , 2012 , 30 ( 4 ): 521 - 531 .

SILLARD P . Few-mode-fiber developments and applications [C ] // 2018 23rd Opto-Electronics and Communications Conference (OECC) . Piscataway : IEEE , 2018 : 1 - 2 .

RAMACHANDRAN S , KRISTENSEN P , YAN M F . Generation and propagation of radially polarized beams in optical fibers [J ] . Optics Letters , 2009 , 34 ( 16 ): 2525 - 2527 .

GREGG P , KRISTENSEN P , RAMACHANDRAN S . Conservation of orbital angular momentum in air-core optical fibers [J ] . Optica , 2015 , 2 ( 3 ): 267 .

BOZINOVIC N , YUE Y , REN Y X , et al . Terabit-scale orbital angular momentum mode division multiplexing in fibers [J ] . Science , 2013 , 340 ( 6140 ): 1545 - 1548 .

GREGG P , KRISTENSEN P , RAMACHANDRAN S . 13.4km OAM state propagation by recirculating fiber loop [J ] . Optics Express , 2016 , 24 ( 17 ): 18938 - 18947 .

ZHU G X , HU Z Y , WU X , et al . Scalable mode division multiplexed transmission over a 10-km ring-core fiber using high-order orbital angular momentum modes [J ] . Optics Express , 2018 , 26 ( 2 ): 594 - 604 .

SILLARD P , BIGOT-ASTRUC M , BOIVIN D , et al . Few-mode fiber for uncoupled mode-division multiplexing transmissions [C ] // 2011 37th European Conference and Exhibition on Optical Communication . Piscataway : IEEE , 2011 : 1 - 3 .

KASAHARA M , SAITOH K , SAKAMOTO T , et al . Design of three-spatial-mode ring-core fiber [J ] . Journal of Lightwave Technology , 2014 , 32 ( 7 ): 1337 - 1343 .

BRUNET C , UNG B , BÉLANGER P A , et al . Vector mode analysis of ring-core fibers: Design tools for spatial division multiplexing [J ] . Journal of Lightwave Technology , 2014 , 32 ( 23 ): 4648 - 4659 .

WANG Z , LU Q C , TU J J , et al . Design, fabrication, and characterization of a low-index center and trench-assisted 7-ring-core 5-mode-group fiber for dense space-division multiplexing [J ] . Optics Express , 2022 , 30 ( 1 ): 650 - 663 .

JIANG S L , MA L , ZHANG Z P , et al . Design and characterization of ring-assisted few-mode fibers for weakly coupled mode-division multiplexing transmission [J ] . Journal of Lightwave Technology , 2018 , 36 ( 23 ): 5547 - 5555 .

YEH C , LINDGREN G . Computing the propagation characteristics of radially stratified fibers: An efficient method [J ] . Applied Optics , 1977 , 16 ( 2 ): 483 - 493 .

SNYDER A W , LOVE J D . Optical Waveguide Theory [M ] . London : Chapman and Hall , 1983 .

MALITSON I H . Interspecimen comparison of the refractive index of fused silica [J ] . Journal of the Optical Society of America , 1965 , 55 ( 10 ): 1205 .

BRUNET C , UNG B , WANG L X , et al . Design of a family of ring-core fibers for OAM transmission studies [J ] . Optics Express , 2015 , 23 ( 8 ): 10553 - 10563 .

SCHERMER R T , COLE J H . Improved bend loss formula verified for optical fiber by simulation and experiment [J ] . IEEE Journal of Quantum Electronics , 2007 , 43 ( 10 ): 899 - 909 .

RANDEL S , RYF R , SIERRA A , et al . 6×56-Gb/s mode-division multiplexed transmission over 33-km few-mode fiber enabled by 6×6 MIMO equalization [J ] . Optics Express , 2011 , 19 ( 17 ): 16697 - 16707 .

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