Title :
Linear sub-diffraction spatial filtering with plasmonic materials
Author :
Stolarek, Marcin ; Pastuszczak, Anna ; Wrobel, P. ; Stefaniuk, T. ; Kotynski, Rafal
Author_Institution :
Fac. of Phys., Univ. of Warsaw, Warsaw, Poland
Abstract :
We optimise the transfer function of layered metal-dielectric metamaterials for imaging with sub-wavelength resolution, for high-pass spatial filtering, and for diffraction compensation. A variant of a genetic algorithm is used to optimise the metamaterial. The optimisation criteria include transmission, and reflection coefficients averaged over a range of spatial frequencies, and a measure of similarity between the optimised and desired transfer function. This measure is normalised using the Hölder´s inequality and is invariant to scaling by a multiplicative complex factor. The overall criterion is a linear combination of these three basic criteria.
Keywords :
dielectric materials; diffraction; filtering theory; genetic algorithms; high-pass filters; metamaterials; optical filters; optical transfer function; plasmonics; reflection; spatial filters; Hölder´s inequality; diffraction compensation; genetic algorithm; high-pass spatial filtering; layered metal-dielectric metamaterials; linear subdiffraction spatial filtering; multiplicative complex factor; optimisation criteria; plasmonic materials; reflection coefficients; similarity measurement; spatial frequencies; subwavelength resolution; transfer function; Diffraction; Image resolution; Imaging; Metamaterials; Optical filters; Optimization; Transfer functions; optical metamaterials; spatial filtering;
Conference_Titel :
Transparent Optical Networks (ICTON), 2013 15th International Conference on
Conference_Location :
Cartagena
DOI :
10.1109/ICTON.2013.6602744
