Zetao Ou scite author profile

et al. 2021

Sensors

In this paper, a multi-parameter integrated detection photonic crystal fiber (PCF) sensor based on surface plasmon resonance (SPR) is proposed for its application in detecting temperature, magnetic field, and refractive index. The air holes on both sides of the fiber core were coated with gold film and introduced to the temperature-sensitive medium (PDMS) and magnetic fluid (MF), detecting temperature and magnetic field, respectively. The graphene layer is also presented on the gold film of the D-type side polished surface to improve the sensor sensitivity. The sensor’s critical parameters’ influence on its performance is investigated using a mode solver based on the finite element method (FEM). Simulation results show when the samples refractive index (RI) detection is a range of 1.36~1.43, magnetic field detection is a range of 20~550 Oe, and the temperature detection is a range of 5~55 °C; the maximum sensor’s sensitivity obtains 76,000 nm/RIU, magnetic field intensity sensitivity produces 164.06 pm/Oe, and temperature sensitivity obtains −5001.31 pm/°C.

High Sensitivity Plasmonic Sensor Based on Fano Resonance with Inverted U-Shaped Resonator

Xiao

et al. 2021

Sensors

Herein, we propose a tunable plasmonic sensor with Fano resonators in an inverted U-shaped resonator. By manipulating the sharp asymmetric Fano resonance peaks, a high-sensitivity refractive index sensor can be realized. Using the multimode interference coupled-mode theory and the finite element method, we numerically simulate the influences of geometrical parameters on the plasmonic sensor. Optimizing the structure parameters, we can achieve a high plasmonic sensor with the maximum sensitivity for 840 nm/RIUand figure of merit for 3.9 × 105. The research results provide a reliable theoretical basis for designing high sensitivity to the next generation plasmonic nanosensor.

Fiber Optic Sensor with a Gold Nanowire Group Array for Broad Range and Low Refractive Index Detection

Xiao

et al. 2022

Photonics

To achieve high performance and wide range detection, we propose an ultra-wide range high sensitivity plasmonic fiber optic sensor with a gold (Au) nanowire group array, which has both propagating surface plasmon resonance (PSPR) and local surface plasmon resonance (LSPR) sensing characteristics. The PSPR, LSPR, and PSPR+LSPR are presented as Au thin layers, Au spheres (or Au nanowires), and Au nanowire group arrays, respectively, and their respective properties are analyzed from theoretical, simulated, and numerical aspects. When detection is performed, the presence of both evanescent wave and electric field forces in the Au nanowire group array combines to significantly improve the sensor’s detection capability. Detection simulation analysis was performed using COMSOL Multiphysics software. The range of refractive indices that can be detected is 1.08 to 1.37 in the optical band from 1210 nm to 2140 nm. In the detection range, the maximum sensitivity of the detected wavelength is 13,000 nm/RIU. Our proposed sensor has a broad range, high sensitivity, and low refractive index detection, and has good research value and application prospects.

Dual-parameter detection with an open-loop dual-core plasmonic optical fiber sensor

et al. 2022

The present article proposes an open-loop dual-core plasmonic optical fiber sensor for dual-parameter detection. For the first time, a graphene-TiO2-gold composite structure was used in an open-loop channel of D-type, and a two-parameter detection was produced using a PDMS-Au temperature sensing channel. The sensing mechanism is based on the surface plasmon resonance (SPR) interaction between the photonic crystal fiber core and the metal layer. The analytical approach is complete vector finite element analysis. The coupling loss, resonant peak, sensitivity, and other performance factors are analyzed. According to analogy and simulation analysis, the sensor has a maximum wavelength sensitivity of 27794.37 nm / RIU when the refractive index of the measured area is 1.31∼1.42, and maximum temperature sensitivity of 10.50 nm /°C in the range of 10 °C to 40 °C.

Graphene-gold nanowires-graphene sensitized optical fiber sensor

et al. 2021