Nano-antenna enhanced two-focus fluorescence correlation spectroscopy

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Publication date
DOI http://dx.doi.org/10.1038/s41598-017-06325-6
Reference L. Langguth, A. Szuba, S.A. Mann, E.C. Garnett, G.H. Koenderink and A.F. Koenderink, Nano-antenna enhanced two-focus fluorescence correlation spectroscopy, Sci. Rep. 7, (Article number: 5985), 1-9 (2017)
Groups Nanoscale Solar Cells, Resonant Nanophotonics

We propose two-focus fluorescence correlation spectroscopy (2fFCS) on basis of plasmonic
nanoantennas that provide distinct hot spots that are individually addressable through polarization, yet lie within a single diffraction limited microscope focus. The importance of two-focus FCS is that a calibrated distance between foci provides an intrinsic calibration to derive diffusion constants from measured correlation times. Through electromagnetic modelling we analyze a geometry of perpendicular nanorods, and their inverse, i.e., nanoslits. While we find that nanorods are not suited for nano-antenna enhanced 2fFCS due to substantial background signal, a nanoslit geometry is expected to provide a di tinct cross-correlation between orthogonally polarized detection channels. Furthermore, by utilizing a periodic array of nanoslits instead of a single pair, the amplitude of the cross-correlation can be enhanced. To demonstrate this technique, we present a proof of principle experiment on the basis of a periodic array of nanoslits, applied to lipid diffusion in a supported lipid bilayer.