Publica
Hier finden Sie wissenschaftliche Publikationen aus den FraunhoferInstituten. Simulation of metallic nanoparticles in layered structures
 Simos, T.E. ; American Institute of Physics AIP, New York: ICNAAM 2010, International Conference of Numerical Analysis and Applied Mathematics. Vol.1 : Rhodes (Greece), 1925 September 2010 Woodbury, N.Y.: AIP, 2010 (AIP Conference Proceedings 1281) ISBN: 9780735408340 ISBN: 9780735408319 ISSN: 0094243X S.16261629 
 International Conference of Numerical Analysis and Applied Mathematics (ICNAAM) <2010, Rhodos> 

 Englisch 
 Konferenzbeitrag 
 Fraunhofer IOF () 
 nanostructured material; plasmon; colloid; solar cell 
Abstract
Metallic thin films and metallic nanoparticles give rise to peculiar optical effects in frequency regions where an external electromagnetic field can couple to charge oscillations resonantly. Plasmons localized at interfaces and closed surfaces give rise to huge local field enhancements which can be used for a great variety of applications based on linear and nonlinear lightmatterinteraction. Except for a few geometrytypes an accurate modelling of plasmons and plasmonrelated effects is feasible only by sophisticated numerics which combines reliability and efficiency, preferably. We report on FEMbased calculations for 3D metallic nanoparticles whith special emphasis on both test configurations as well as on effects in layered structures as they are typical for silicon solar cells.