Kretschmann-Based Optical Sensor via Thermally Tunable Refractive Index
Document Type
Article
Publication Date
5-30-2021
Abstract
This study discusses whether the prism used in a Kretschmann-based surface plasmon sensor can be fabricated from a thermotropic liquid crystal (TLC) material. The refractive index of the TLC prism can be thermally tuned to match the excitation requirements for the surface plasmon modes along the metal–TLC interface of the proposed sensing platform. The TLC material was chemically prepared in vitro and was thermally and optically characterized. The measurements reported a wide mesophase temperature range ΔT (~35 °C) and a relatively high clearing temperature TC (~84 °C) which constitutes a stable thermal control for the TLC optical parameters. The experimentally measured refractive indices of the TLC material reflect a linear change in line with the temperatures at several selected wavelengths in the visible region. A design of the surface plasmon sensor was proposed, which provided a linear response to the investigated analytes refractive index. This work highlights the importance of employing TLC material in designs compatible with detecting refractive index changes by thermal tuning and presents refractive index interrogation as an alternative method for exciting surface plasmon modes.
Recommended Citation
Shaban, Hassanein; Shaaban, Adel; Salem, Marwa; Gomaa, Lotfy; Abdulrahman, Mohamed Medhat; and Du, Yi-Chun, "Kretschmann-Based Optical Sensor via Thermally Tunable Refractive Index" (2021). Basic Science Engineering. 98.
https://buescholar.bue.edu.eg/basic_sci_eng/98