Measurements of Rotation and Fluorescence Lifetimes for Optimizing the Detection of Single Fluorescinated Bases

Lloyd M. Davis; Newton K. Seitzinger; E. Brooks Shera; Richard A. Keller

doi:10.1364/LACA.1990.ThA5

Laser Applications to Chemical Analysis
Technical Digest Series (Optica Publishing Group, 1990),
paper ThA5
•https://doi.org/10.1364/LACA.1990.ThA5

Measurements of Rotation and Fluorescence Lifetimes for Optimizing the Detection of Single Fluorescinated Bases

Lloyd M. Davis, Newton K. Seitzinger, E. Brooks Shera, and Richard A. Keller

Laser Applications to Chemical Analysis 1990

Incline Village, Nevada United States
5–8 February 1990
ISBN:

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Single-Molecule Fluorescence and Clinical Applications (ThA)

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L. M. Davis, N. K. Seitzinger, E. B. Shera, and R. A. Keller, "Measurements of Rotation and Fluorescence Lifetimes for Optimizing the Detection of Single Fluorescinated Bases," in Laser Applications to Chemical Analysis, Technical Digest Series (Optica Publishing Group, 1990), paper ThA5.

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Abstract

Time Correlated Single Photon Counting is an optimum technique for acquiring fluorescence decay profiles over a large dynamic range with accurately known errors. The data are fully utilized in a statistical sense when analyzed by weighted non-linear fitting to a decay function convolved with the experimentally measured prompt response function.¹

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