Highly Sensitive D-Shaped Plasmonic Refractive Index Sensor for a Broad Range of Refractive Index Detection

In this paper, an extremely sensitive Photonic Crystal Fiber (PCF) based Surface Plasmon Resonance (SPR) sensor having D-shaped structure has been proposed. Gold has been used as the plasmonic material, and it has been coated outside of the fiber on its glassy surface to detect the change in the refractive index of the surrounding medium. Gold has been chosen as it is chemically stable and has no impact on the surrounding aqueous medium. Maximum Wavelength Sensitivity (WS) of 216,000 nm/RIU and Amplitude Sensitivity (AS) of 1680 RIU-1 have been achieved for the analyte refractive index range 1.23 to 1.42 by the proposed sensor. After conducting a detailed literature review in the relevant field, it has been revealed that the proposed sensor possesses the highest wavelength sensitivity among recently reported PCF-SPR sensors to this date. The proposed sensor also exhibits a resolution of 4.63 x 10(-7) RIU and FOM of 1200. Consequently, the proposed sensor can become an ideal candidate in the field of biomedical sensing, chemical sensing, and other lower RI analytes sensing.

Automated summary

The paper introduces an extremely sensitive PCF-based SPR sensor with a D-shaped structure utilizing gold as the plasmonic material for detecting changes in refractive index of the surrounding medium. With a wavelength sensitivity of 216,000 nm/RIU and amplitude sensitivity of 1680 RIU-1, the proposed sensor outperforms other PCF-SPR sensors in terms of sensitivity. The sensor also boasts a high resolution of 4.63 x 10(-7) RIU and figure of merit (FOM) of 1200, making it an ideal candidate for various sensing applications.