Analysis of the Optical Properties of Chiral Au Nanorod Stacks
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We analyze the optical and chirooptical response of two Au nanorods vertically separated and with arbitrary relative in-plane orientation. The use of a simple model of Lorentzian oscillators assigned to the resonances of each individual rod allows analyzing the evolution of the optical properties of this 3D chiral system as a function of relative in-plane orientation, inter-rod separation, and rod dimensions. These results are compared with real physical structures fabricated by multiaxial thermal evaporation through nanohole masks. Despite the simplicity of the theoretical model, the obtained results reproduce the main experimental optical properties of the rod system.
KeywordsChirality Plasmonics Optical activity Circular dichroism Gold nanostructures Nanorods
We acknowledge the financial support from the Spanish MINECO through the project MAT 2014-58860-P. We acknowledge the service from the X-SEM Laboratory at IMM, and funding from MINECO under project CSIC13-4E-1794 with support from EU (FEDER, FSE). We acknowledge the service from MiNa Laboratory at IMM, and funding from CM under project S2013/ICE-2822 (Space-Tec) with support from EU (FEDER, FSE).
- 8.Ma W, Kuang H, Wang L et al (2013) Chiral plasmonics of self-assembled nanorod dimers. Sci Rep. https://doi.org/10.1038/srep01934
- 25.Palik E, Ghosh G (1998) Handbook of optical constants of solids five-volume set. Academic Press, LondonGoogle Scholar
- 27.Zhao J, Frank B, Neubrech F et al (2014) Hole-mask colloidal nanolithography combined with tilted-angle-rotation evaporation: a versatile method for fabrication of low-cost and large-area complex plasmonic nanostructures and metamaterials. Beilstein J Nanotechnol 5:577–586. https://doi.org/10.3762/bjnano.5.68 CrossRefPubMedPubMedCentralGoogle Scholar