Surface plasmon resonance from metallic columnar thin films

Shalabney, A. and Lakhtakia, A. and Abdulhalim, I. and Lahav, A. and Patzig, Christian and Hazek, I. and Karabchevsky, A. and Rauschenbach, Bernd and Zhang, F. and Xu, J. (2009) Surface plasmon resonance from metallic columnar thin films. Photonics and Nanostructures-Fundamentals and Applications, 7 (4). pp. 176-185.

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Abstract

Surface plasmon (SP) waves on the interface of a dielectric (such as water) and a metallic columnar thin film (CTF) of porosity as high as 0.55 were experimentally and theoretically investigated. The CTFs were made of Al, Au, Ag, or Cr. As the porosity increases, the SP resonance (SPR) dip was found to widen, shift to higher wave numbers, and become asymmetric due to increasing scattering losses. With further increase of porosity, the SPR dip was found to disappear, leaving behind only a peak near the onset to the total internal reflection regime. The shape of the nanoislands constituting the CTF is better described as ellipsoidal than as spherical or spheroidal, indicating thereby the existence of orientational biaxial anisotropy even for CTFs thinner than 60 nm. For a best fit between the theoretical calculations and the experimental data, the CTF was divided into two layers having different porosity and nanoisland shape, particularly for the Ag- and Au-CTFs. The sensitivity of the CTF-based SPR signal to refractive index variations of an analyte infiltrating the nanopores of and in the region adjoining the metallic CTF was found to be doubly enhanced compared to that for the SPR signal from a nonporous metallic film.

Item Type:
Journal Article
Journal or Publication Title:
Photonics and Nanostructures-Fundamentals and Applications
ID Code:
224922
Deposited By:
Deposited On:
16 Oct 2024 15:10
Refereed?:
Yes
Published?:
Published
Last Modified:
16 Oct 2024 15:10