We extend the plasmon hybridization method from a single nanoparticle to a complex planar nanostructure, decomposing the complex nanostructure into fundamental nanoparticle building blocks. Using gammadion nanostructure as an example, we validated the theory by comparing the field profile in the gammadion's arms under the influence of an incident circularly polarized wave. This allows us to address the origin of the plasmonics modes in the circular dichroism (CD) spectrum. The use of this hybridization method provides a simple and intuitive explanation on how conductive and inductive coupling may result from complex planar nanostructures, allowing us to study its optical properties. Using our approach, top down hybridization studies can be applied to other complex planar structures to gain further insight on the origin of the CD modes and enhance ultrasensitive sensing of chiral micro and macro molecules.

• 出版日期2016-4