Near-field surface plasmon field enhancement induced by rippled surfaces
Autori: D’Acunto M., Fuso F., Micheletto R., Naruse M., Tantussi F., Allegrini M.
Rivista: Beilstein Journal of Nanotechnology
DOI: 10.3762/bjnano.8.97
Abstract:
The occurrence of plasmon resonances on metallic nanometer-scale structures is an intrinsically nanoscale phenomenon, given that the two resonance conditions (i.e., negative dielectric permittivity and large free-space wavelength in comparison with system dimensions) are realized at the same time on the nanoscale. Resonances on surface metallic nanostructures are often experimentally found by probing the structures under investigation with radiation of various frequencies following a trial-and-error method. A general technique for the tuning of these resonances is highly desirable. In this paper we address the issue of the role of local surface patterns in the tuning of these resonances as a function of wavelength and electric field polarization. The effect of nanoscale roughness on the surface plasmon polaritons of randomly patterned gold films is numerically investigated. The field enhancement and relation to specific roughness patterns is analyzed, producing many different realizations of rippled surfaces. We demonstrate that irregular patterns act as metal–dielectric–metal local nanogaps (cavities) for the resonant plasmonic field. In turn, the numerical results are compared to experimental data obtained via aperture scanning near-field optical microscopy.
Keywords: aperture scanning near-field optical microscopy, gold rippled surface, localized hot spots, metal–dielectric−metal nanogaps, surface plasmon resonance
