Optical properties of gyrotropic polygonal chiral thin films

TL;DR

This study investigates how gyrotropy, porosity, and incident angle affect the optical properties of polygonal chiral thin films, revealing impacts on Bragg regimes, reflection, transmission, and Fabry-Perot oscillations.

Contribution

It provides a detailed analysis of the optical response of gyrotropic polygonal chiral thin films using transfer matrix method, highlighting the effects of gyrotropy and porosity.

Findings

Gyrotropy factor influences Fabry-Perot oscillations.

Porosity affects Bragg regimes and optical transmission.

Incident angle impacts reflection and transmission properties.

Abstract

The optical response of gyrotropic and non-gyrotropic dielectric polygonal chiral thin films were investigated using transfer matrix method. The influence of gyrotropy factor, porosity and incident angle of light on Bragg regimes, selective reflection and transmission were reported. The results revealed that the Fabry-Perot oscillations were affected by gyrotropy factor and porosity of polygonal chiral thin films.