Title :
Image Formation in Wide-Field Microscopes Based on Leakage of Surface Plasmon-Coupled Fluorescence
Author :
Frisbie, S.P. ; Chesnutt, C.F. ; Holtz, M.E. ; Krishnan, A. ; De Peralta, L. Grave ; Bernussi, A.A.
Author_Institution :
Dept. of Electr. & Comput. Eng., Texas Tech Univ., Lubbock, TX, USA
Abstract :
A proof-of-concept imaging technique that combines the advantages of wide-field surface plasmon, leakage radiation, and total internal reflection fluorescence microscopy methods is presented. High-contrast non-scanning images with subwavelength resolution of patterned and homogeneous samples coated with a fluorescent material were demonstrated. We show that the image formed in the back focal plane of the objective lens can be reconstructed from the image of the sample´s surface using an algorithm similar to that used in computerized tomographic imaging. Our experimental results suggest that there is a 1-D Fourier transform relationship between any line amplitude profile at a given angle passing through the center of the sample´s surface image and a line amplitude profile passing through the center of the back-focal-plane image at the same angle.
Keywords :
Fourier transforms; computerised tomography; fluorescence; focal planes; image reconstruction; surface plasmons; 1D Fourier transform; back focal plane image; computerized tomographic imaging; image formation; image reconstruction; internal reflection fluorescence microscopy; leakage radiation; nonscanning images; subwavelength resolution; surface plasmon coupled fluorescence; wide-field microscopes; wide-field surface plasmon; Fluorescence; High-resolution imaging; Image reconstruction; Image resolution; Lenses; Microscopy; Optical materials; Plasmons; Reflection; Surface reconstruction; Engineered photonic nanostructures; fluorescence microscopy; imaging; microscopy; nanophotonics; optics; photonic materials and engineered photonic structures; plasmonics;
Journal_Title :
Photonics Journal, IEEE
DOI :
10.1109/JPHOT.2009.2028307
