Slab waveguide sensor based on amplified phase change due to multiple total internal reflections

Authors

SOFYAN A. TAYA
TAHER M. EL-AGEZ

DOI

10.3906/fiz-1103-23

Abstract

We present theoretically an optical slab waveguide sensor based on amplified phase change due to multiple total internal reflections (TIRs). Compared with the conventional waveguide sensors, the proposed approach provides higher sensitivity. In this sensor, we adopt the change in the ellipsometric total phase change \Delta as the measuring probe of changes in the refractive index (RI) of the cladding. The change in \Delta is calculated for large number of alternating total reflections. Numerical calculations show that \Delta is strongly dependent on the RI variations of the cladding. Moreover, theoretical simulations show that the resolution of this sensor is predicted to be \approx 10^{-8} refractive index units (RIU). The proposed sensor could be used as a RI and a pressure sensor.

Keywords

Slab waveguides, total internal reflection, Goos Hänchen shift, ellipsometry, uniaxial anisotropic medium, vacuum sensor

First Page

67

Last Page

76

Recommended Citation

TAYA, SOFYAN A. and EL-AGEZ, TAHER M. (2012) "Slab waveguide sensor based on amplified phase change due to multiple total internal reflections," Turkish Journal of Physics: Vol. 36: No. 1, Article 8. https://doi.org/10.3906/fiz-1103-23
Available at: https://journals.tubitak.gov.tr/physics/vol36/iss1/8