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Proceedings Paper

Optical properties of UT-shaped plasmonic nanoaperture antennas
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Paper Abstract

In this paper, we present numerical and experimental results on optical properties of a multi-resonant UT-shaped plasmonic nanoaperture antenna for enhanced optical transmission and near-field resolution. We propose different structure designs in order to prove the effect of geometry on resonance spectrum and near-field enhancement. Theoretical calculations of transmission spectra and field distributions of UT-shaped nano-apertures are performed by using three-dimensional finite-difference time-domain method. The results of these numerical calculations show that transmission through the apertures is indeed concentrated in the gap region. In addition to theoretical calculations, we also performed a lift-off free plasmonic device fabrication technique based on positive resist electron beam lithography (EBL) and reactive ion etching in order to fabricate UT-shaped nanostructures. For further confirmation of the multiresonant behavior, we checked the individual U-and T-shaped nano-aperture antenna responses. We also studied the parameter dependence of the structure to determine the control mechanism of the spectral response. Theoretical calculations are supported with experimental results to prove the enhanced field distribution and multi-resonant behavior which can be suitable for infrared detection of biomolecules, wavelength-tunable filters, optical modulators, and ultrafast switching devices.teInp

Paper Details

Date Published: 26 September 2011
PDF: 6 pages
Proc. SPIE 8104, Nanostructured Thin Films IV, 81040C (26 September 2011); doi: 10.1117/12.893891
Show Author Affiliations
Mustafa Turkmen, Erciyes Univ. (Turkey)
Boston Univ. (United States)
Serap Aksu, Boston Univ. (United States)
A. Engin Çetin, Boston Univ. (United States)
Ahmet A. Yanik, Boston Univ. (United States)
Hatice Altug, Boston Univ. (United States)


Published in SPIE Proceedings Vol. 8104:
Nanostructured Thin Films IV
Raúl J. Martín-Palma; Yi-Jun Jen; Tom G. Mackay, Editor(s)

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