Aplikace metapovrchů pro strukturální zbarvení / Aplikace metapovrchů pro strukturální zbarvení

Červinka, Ondřej

January 2021

Color filters enable photosensors to obtain spectral composition of incoming radiation, be it to mimic human vision or to separate analytical signals. Efforts to increase the resolution of these photosensors lead to decrease in size of individual picture elements – pixels, which places increasing demands on the color filter technology. Conventional color filters operating on the principle of absorption of light in organic pigments are frequently used, but they are no longer meeting growing requirements of increasing sensor resolution. Here, metasurfaces comes to an aid, utilizing nanostructures to separate colors and thus creating structural coloration. There are many approaches to separate colors using metasurfaces, but each carries certain disadvantages with their principle of operation. In this thesis, we present a novel approach to separate colors which utilizes manipulation of radiation polarization. The presented color filter is first modeled and optimizes through numerical simulations and then manufactured using nanofabrication methods. Finally, the optical response of nanostructures is verified by several optical spectroscopy methods.

Half-wave Plates for the Spider Cosmic Microwave Background Polarimeter

Bryan, Sean Alan

11 June 2014

No description available.

Physics

cosmic microwave background

cosmology

microwave

optics

half wave plate

polarization

polarization modulation