Research on Liquid-filled Microstructured Optical Fiber Device and Sensing Characteristics

Citation

黄益建 (HUANG, Yijian). 液体填充的微结构光纤器件及传感特性研究 (Research on Liquid-filled Microstructured Optical Fiber Device and Sensing Characteristics). Doctoral Dissertation, 深圳大学 (Shenzhen University), Shenzhen, P. R. China, [Date not explicitly stated, likely around 2019 based on publication dates]. Supervised by 王义平 (WANG, Yiping).

Keywords

• Microstructured optical fiber (MSF)
• Material filling
• Liquid crystal
• Mode coupling
• Optical fiber sensor
• Photonic crystal fiber (PCF)
• Temperature sensing
• Electric field sensing
• Refractive index sensing
• Self-imaging effec
• Hollow-core fiber
• Side-hole fiber

Brief

This doctoral dissertation investigates the design and sensing characteristics of novel microstructured optical fiber devices achieved by selectively or fully filling their micro holes with functional materials, particularly liquids like liquid crystals and aqueous solutions, for applications in temperature, electric field, and refractive index sensing.

Summary

This document is a PhD dissertation focusing on liquid-filled microstructured optical fiber devices and their sensing applications. The research explores the design and study of several novel microstructured optical fiber sensors created by integrating functional materials into the micro holes of the fibers. This approach allows for strong interaction between the materials and the light within the fiber, enhancing sensing performance due to the high sensitivity of the functional materials to external environments.

Origin: