Optical security features and filters using plasmonic nanostructures
No Thumbnail Available
Author
Gallinet, B.
Lutolf, F.
Duempelmann, L.
Basset, G.
Luu-Dinh, A.
Schnieper, M.
et al.
Abstract
Plasmonics involves the interaction of light with metallic structures at the nanoscale, which enables in particular the generation of strong reflection and absorption effects in the visible and near infrared range. The fabrication of plasmonic nanostructures using ultra-violet (UV) imprint and thin metallic coatings is reported. Wafer-scale fabrication and process compatibility with cost-efficient roll-to-roll production are demonstrated, which paves the road towards an industrial implementation. The color, phase, polarization and direction of the transmitted light are controlled by tuning the process parameters and the symmetry of the nanostructures. A family of devices is presented, for which the potential for sensing, filtering, anticounterfeiting and optical security is evaluated.
Publication Reference
in Photonic and Phononic Properties of Engineered Nanostructures Vii. vol. 10112 (Issue), A. Adibi, S. Y. Lin, and A. Scherer, Eds., ed Bellingham: Spie-Int Soc Optical Engineering, 2017.
Year
2017