研究目的
Investigating the use of an all-fiber Lyot filter with femtosecond laser-induced high birefringence single-mode fiber for torsion, transverse load, and temperature sensing.
研究成果
The all-fiber Lyot filter with femtosecond laser-induced high birefringence SMF demonstrates excellent performance for torsion, transverse load, and temperature sensing, with sensitivities of ?4265.669 nm/(rad/mm), ?321.004 nm/(N/mm), and 0.271 nm/?C, respectively. This development not only contributes to the field of optical sensing but also expands the applications of femtosecond-laser processing and all-fiber Lyot filters.
研究不足
The manual application of torsion and the stability of the temperature measurement setup introduce errors, affecting the linearity of the sensor responses. High-accuracy experimental setups could improve these limitations.
1:Experimental Design and Method Selection:
The study employs a femtosecond-laser processing technique to induce high birefringence in a single-mode fiber (SMF) by writing a straight cladding stress track parallel to the fiber core. This modified SMF is then used to construct an all-fiber Lyot filter for sensing applications.
2:Sample Selection and Data Sources:
A Corning SMF-28e fiber is used as the base material for inducing birefringence.
3:List of Experimental Equipment and Materials:
A 514 nm femtosecond laser, a 63× oil immersion lens, a 3-D translation stage, and standard weights for transverse load testing are used.
4:Experimental Procedures and Operational Workflow:
The SMF is fixed and moved along the fiber axis to inscribe the stress track. The Lyot filter's response to torsion, transverse load, and temperature is then tested.
5:Data Analysis Methods:
The transmission spectrum of the Lyot filter is analyzed to determine sensitivities to torsion, transverse load, and temperature.
独家科研数据包,助您复现前沿成果����,加速创新突破
获取完整内容
