Affiliation:
1. Condensed Matter and Sustainable Development Laboratory University Djillali Liabes Sidi Bel Abbes 22000 Algeria
2. Triumph Academy Sidi Bel Abbes 22000 Algeria
Abstract
A theoretical study of a one‐dimensional photonic crystal (1D‐PhC) [TiO2/MgF2]2/TiO2/GaAs terminated by a dielectric metasurface consisting of periodically arranged TiO2 nanospheres for biosensing is proposed. The p polarized incident beam and the prism couplingtechnique are employed to excite Bloch surface waves considering a low biomolecular concentration sensing medium with refractive index changing from 1.33 to 1.34 RIU. The optical properties of the metasurface layer are calculated within the effective medium approximation. The findings reveal that integrating TiO2 nanosphere metasurfaces as the upper layer of a photonic structure allows simultaneous control of biosensor sensitivity and the reflectance curve's full width at half maximum by judiciously tuning its optical properties, relying on the filling fraction (f) and the size () of the TiO2 nanospheres. Moreover, The results show that the biosensor with the metasurface performs superior to the one without it.
Funder
Direction Générale de la Recherche Scientifique et du Développement Technologique