用于测量折射率和温度的超高灵敏度金基 SPR 传感器的实验研究

IF 2.5 3区 物理与天体物理 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Kaifeng Li , Zhiyong Yin , Shuguang Li, Xili Jing
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引用次数: 0

摘要

我们通过实验展示了一种超高灵敏度的金基光纤折射率(RI)传感器,其主要结构由多模光纤(MMF)和光子晶体光纤(PCF)组成。金膜通过磁控溅射沉积在 V 型 PCF 上,并基于表面等离子体共振(SPR)原理进行了传感实验。数值模拟结果表明,V 型 PCF 的包层模式比核心模式更能激发 SPR 效应。实验结果表明,传感器的 RI 测量范围为 1.333-1.421,最大灵敏度为 10015 nm/RIU。除了 RI 传感之外,传感探针还可以在金膜上涂覆聚二甲基硅氧烷 (PDMS),用于温度传感。温度检测范围为 10 至 100 ℃,最大灵敏度为 3.5 nm/℃。除了在 RI 测量方面具有高灵敏度外,该传感器在温度传感方面也具有良好的传感性能。该传感器具有灵敏度高、稳定性好、易于制备等优点,在高性能传感领域具有重要的参考价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental study on ultra-high sensitivity gold-based SPR sensor for refractive index and temperature measurement

We have experimentally demonstrated an ultra-high sensitivity gold-based fiber refractive index (RI) sensor whose main structure is composed of multimode fiber (MMF) and photonic crystal fiber (PCF). The gold film is deposited on V-shaped PCF by magnetron sputtering, and sensing experiments are performed based on the principle of surface plasmon resonance (SPR). Numerical simulation results indicate that the cladding mode of the V-shaped PCF is more capable of stimulating the SPR effect than the core mode. The experimental results show that the RI measurement range of the sensor is 1.333–1.421, with a maximum sensitivity of 10015 nm/RIU. In addition to RI sensing, sensing probes can be coated with polydimethylsiloxane (PDMS) on a gold film for temperature sensing. For temperature detection, the range is from 10 to 100 °C and the maximum sensitivity is 3.5 nm/℃. Besides high sensitivity in RI measurement, the proposed sensor also has good sensing performance in temperature sensing. With the advantages of high sensitivity, good stability, and easy preparation, this sensor has become an important reference in the field of high-performance sensing.

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来源期刊
CiteScore
5.00
自引率
3.70%
发文量
77
审稿时长
62 days
期刊介绍: This journal establishes a dedicated channel for physicists, material scientists, chemists, engineers and computer scientists who are interested in photonics and nanostructures, and especially in research related to photonic crystals, photonic band gaps and metamaterials. The Journal sheds light on the latest developments in this growing field of science that will see the emergence of faster telecommunications and ultimately computers that use light instead of electrons to connect components.
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