학술논문
Nanoimprinted Bragg Gratings for Long-Range Surface Plasmon Polaritons Fabricated via Spin Coating of a Transparent Silver Ink
Document Type
Periodical
Author
Source
IEEE Transactions on Nanotechnology IEEE Trans. Nanotechnology Nanotechnology, IEEE Transactions on. 10(4):844-848 Jul, 2011
Subject
Language
ISSN
1536-125X
1941-0085
1941-0085
Abstract
We designed, fabricated, and characterized novel long-range surface plasmon polariton waveguides based on Bragg gratings (LRSPPW-BGs) via spin coating of a transparent silver ink on nanoimprinted polymeric patterns at low temperature in the absence of a vacuum system. For 20-nm-thick and 8-$\bf {\mu }$ m-wide LRSPPW-BGs of lengths in excess of 500 $ \bf {\mu m}$ , the measured reflectances are greater than 90% at a Bragg wavelength of $ \sim$1532 nm. For a 20-nm-thick, 8- $\bf {\mu m}$-wide, and 1000-$\bf {\mu m}$-long LRSPPW-BG, the full width at half maximum of a reflectance is determined to be 1.89 nm. The use of spin-coatable silver ink combined with the nanoimprint technique may represent a viable new route for cost effective and simple fabrication of LRSPPW-BGs.