2 research outputs found
Supplement 1: Subwavelength nanocavity for flexible structural transmissive color generation with a wide viewing angle
Supplementary material Originally published in Optica on 20 December 2016 (optica-3-12-1489
Robust Extraction of Hyperbolic Metamaterial Permittivity Using Total Internal Reflection Ellipsometry
Hyperbolic metamaterials
are optical materials characterized by
highly anisotropic effective permittivity tensor components having
opposite signs along orthogonal directions. The techniques currently
employed for characterizing the optical properties of hyperbolic metamaterials
are limited in their capability for robust extraction of the complex
permittivity tensor. Here we demonstrate how an ellipsometry technique
based on total internal reflection can be leveraged to extract the
permittivity of hyperbolic metamaterials with improved robustness
and accuracy. By enhancing the interaction of light with the metamaterial
stacks, improved ellipsometric sensitivity for subsequent permittivity
extraction is obtained. The technique does not require any modification
of the hyperbolic metamaterial sample or sophisticated ellipsometry
setup and could therefore serve as a reliable and easy-to-adopt technique
for characterization of a broad class of anisotropic metamaterials