Article ID Journal Published Year Pages File Type
5356152 Applied Surface Science 2012 5 Pages PDF
Abstract

Oblique-angle deposition of metallic island films onto self-organized rippled surfaces results in arrays of particles and wires with characteristic dimensions below 50 nm. Films of the noble metals exhibit distinct optical properties due to localized plasmon resonances. Here the films are characterized using generalized spectroscopic ellipsometry. Due to the small characteristic dimensions we can describe the optical properties using an effective medium approach. The dielectric properties are highly anisotropic and a biaxial dielectric tensor description is required. The plasmonic resonances provide a means to tune the form birefringence by adjusting the metal fraction, from aligned nanoparticles with anisotropic localized plasmon resonances, to arrays of nanowires with orthogonal metallic and dielectric properties. The deposition of the particles on one side of the ripple ridges causes additional anisotropy that shows a 2-fold symmetry upon rotation in the substrate plane. This is associated with a longitudinal plasmon resonance in the out-of-plane direction.

► Optical properties of aligned silver nanospheres and nanorods are investigated. ► Effective dielectric functions are determined using generalized ellipsometry. ► The DFs are highly anisotropic due to the plasmon resonances in the silver particles. ► A 2-fold symmetric anisotropy in the LO mode is caused by tilting of the particles.

Related Topics
Physical Sciences and Engineering Chemistry Physical and Theoretical Chemistry
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