Preparation and characterization of multi-core optical fiber devices

Citation

陈书玉 (Chen Shuyu). (2024 年 5 月). 多芯光纤器件的制备及特性研究 (Preparation and characterization of multi-core optical fiber devices) [硕 士 学 位 论 文 (Master's thesis), 专 业 名 称: 机械 (Major: Mechanical), 指导教师姓名、职称: 汪杰君 正高级实验师 (Advisor: Wang JieJun, Senior Experimentalist)].

Keywords

• 多芯光纤 / Multi-core optical fiber
• 光纤器件 / Fiber optic device
• 制备 / Preparation/Fabrication
• 特性研究 / Characterization research
• 光纤通信 / Optical fiber communication
• 光纤传感 / Optical fiber sensing
• 空分复用 / Space division multiplexing
• 集成式光纤传感器 / Integrated fiber sensors
• 微型光器件 / Micro-optical devices
• 光束传播法 / Beam propagation method
• 射线光学 / Ray optics
• 光纤准直器 / Fiber collimator
• 多芯光纤对角芯反射耦合器 / Multi-core fiber diagonal core reflection coupler
• 多芯光纤 45°锥体圆台反射器 / Multi-core fiber 45° cone circular reflector
• 耦合容差损耗 / Coupling tolerance loss
• 四芯光纤对角芯反射器 / Four-core diagonal fiber reflector
• 七芯六模扇入扇出器 / Seven-core six-mode fan-in and fan-out device
• 芯间对角反射器 / Inter-core diagonal reflector
• 扇入扇出器件 / Fan-in-fan-out device
• 芯间串扰 / Inter-core crosstalk
• 沟道型折射率分布多芯光纤 / Trench-assisted multi-core fiber
• 空心型结构多芯光纤 / Hole-assisted multi-core fiber
• 异质结构多芯光纤 / Heterogeneous multi-core fiber
• 准同质结构多芯光纤 / Nearly homogeneous multi-core fiber
• 渐变折射率微透镜 / Graded index microlens

Brief

This master's thesis focuses on the preparation and characterization of various multi-core optical fiber devices, including collimators, reflectors, and fan-in/fan-out devices, to facilitate their application in optical communication and sensing.

Summary

This master's thesis focuses on the design, fabrication, and performance evaluation of various multi-core fiber devices. The research aims to address the increasing demand in optical communication and sensing by developing functional integrated devices based on multi-core fibers. The thesis explores the creation and characteristics of fiber collimators, inter-core diagonal reflectors, and fan-in/fan-out devices, analyzing their potential to enhance the practical application of multi-core fiber technology.

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