光学
材料科学
折射率
光电子学
光散射
分束器
可见光谱
光纤
反射率
衰减系数
杂散光
激光束
全内反射
光强度
反射(计算机编程)
光学相干层析成像
衍射光栅
光纤传感器
光学滤波器
作者
Yu Ying,Jinhao Wang,Zhijun Gao
出处
期刊:Applied Optics
[Optica Publishing Group]
日期:2026-03-02
卷期号:65 (9): 3031-3031
摘要
This paper presents a dual-parameter surface plasmon resonance (SPR) sensor based on what we believe to be a novel dual-core photonic crystal fiber (PCF) structure. Gold nanowires are embedded into two spatially separated detection channels. The upper channel is used for refractive index (RI) measurement, while the lower channel contains an elliptical cavity filled with trichloromethane (CHCl3) for temperature sensing. The influence of structural parameters on sensing performance was analyzed by the finite element method (FEM), and the parameters were optimized accordingly. For RI sensing, the proposed sensor achieves a maximum wavelength sensitivity of 30,321 nm/RIU, with a corresponding figure of merit (FOM) of 594.52RIU-1. For temperature sensing, it operates within an environmental temperature range from 0°C to 10°C and reaches a maximum temperature sensitivity of -6.62nm/∘C. These features make it suitable for applications that require accurate monitoring of small temperature changes, such as quantum device temperature control, biological cold-chain logistics, and chip-scale microenvironment regulation. The proposed configuration allows simultaneous and independent detection of RI and temperature. It has a compact structure and a relatively simple fabrication process. With its high sensitivity and parallel dual-parameter capability, it shows strong potential for multi-variable monitoring in complex environments.
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