This is the publisher’s final pdf. The published article is copyrighted by the American Institute of Physics and can be found at: http://rsi.aip.org/.A single‐photon timing system is described which is capable of extracting fluorescence lifetimes as short as 25 ps. The system is an improved version of an earlier apparatus. The new system uses a synchronously pumped, mode‐locked dye laser with 10‐ps pulses operating at 82‐MHz repetition rate. A fast photodetector and a leading‐edge discriminator were developed to use with this light source. Also, a special rate reduction circuit was built to eliminate large oscillations in fluorescence decay spectra due to the excessive stop rates that overload commercial time‐to‐amplitude converters
Advanced fluorescence measurements on single molecules demand single-photon detectors with high-quan...
Most measurements of fluorescence lifetimes on the single-molecule level are carried out using avala...
Fluorescence-emission spectroscopy is a powerful tool for the study of the reactivity of chemical an...
Advances in the design and miniaturization of the lasers and electronics required for Time Correlate...
We present the first compact Time-Correlated Single-Photon Counting single-channel system, capable o...
Time-Correlated Single Photon Counting (TCSPC) is generally recognized as a powerful tool for Fluore...
Fluorescence technologies have only begun exploiting the transient recording of lifetime-based signa...
A computer‐controlled system for time‐resolved fluorescence spectroscopy is described. The system pr...
A photon timing recorder was realized in a field programmable gate array to capture all timing data ...
Author Institution: Xerox Research Centre of CanadaA method for measurement of fluorescence lifetime...
Time-Correlated Single-Photon Counting (TCSPC) is an excellent technique used in a great variety of ...
High-data throughput can achieve two goals in time-resolved fluorescence. It can produce very high s...
Advanced fluorescence measurements on single molecules demand single-photon detectors with high-quan...
Most measurements of fluorescence lifetimes on the single-molecule level are carried out using avala...
Fluorescence-emission spectroscopy is a powerful tool for the study of the reactivity of chemical an...
Advances in the design and miniaturization of the lasers and electronics required for Time Correlate...
We present the first compact Time-Correlated Single-Photon Counting single-channel system, capable o...
Time-Correlated Single Photon Counting (TCSPC) is generally recognized as a powerful tool for Fluore...
Fluorescence technologies have only begun exploiting the transient recording of lifetime-based signa...
A computer‐controlled system for time‐resolved fluorescence spectroscopy is described. The system pr...
A photon timing recorder was realized in a field programmable gate array to capture all timing data ...
Author Institution: Xerox Research Centre of CanadaA method for measurement of fluorescence lifetime...
Time-Correlated Single-Photon Counting (TCSPC) is an excellent technique used in a great variety of ...
High-data throughput can achieve two goals in time-resolved fluorescence. It can produce very high s...
Advanced fluorescence measurements on single molecules demand single-photon detectors with high-quan...
Most measurements of fluorescence lifetimes on the single-molecule level are carried out using avala...
Fluorescence-emission spectroscopy is a powerful tool for the study of the reactivity of chemical an...