Title of article
Toward nanometer-scale resolution in fluorescence microscopy using spectral selfinterference
Author/Authors
W.C.، Karl, نويسنده , , A.K.، Swan, نويسنده , , L.A.، Moiseev, نويسنده , , C.R.، Cantor, نويسنده , , B.، Davis, نويسنده , , S.B.، Ippolito, نويسنده , , B.B.، Goldberg, نويسنده , , M.S.، Unlu, نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2003
Pages
-293
From page
294
To page
0
Abstract
We introduce a new fluorescence microscopy technique that maps the axial position of a fluorophore with subnanometer precision. The interference of the emission of fluorophores in proximity to a reflecting surface results in fringes in the fluorescence spectrum that provide a unique signature of the axial position of the fluorophore. The nanometer sensitivity is demonstrated by measuring the height of a fluorescein monolayer covering a 12-nm step etched in silicon dioxide. In addition, the separation between fluorophores attached to the top or the bottom layer in a lipid bilayer film is determined. We further discuss extension of this microscopy technique to provide resolution of multiple layers spaced as closely as 10 nm for sparse systems.
Keywords
computational grids , Three-dimensional flow , Navier-Stokes equation
Journal title
IEEE Journal of Selected Topics in Quantum Electronics
Serial Year
2003
Journal title
IEEE Journal of Selected Topics in Quantum Electronics
Record number
97065
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