Fast time-correlated single-photon counting fluorescence lifetime acquisition using a 100 MHz semiconductor excitation source

Abstract

The fast and efficient collection of time-resolved fluorescence decay data is shown using a high repetition rate semiconductor laser excitation source optimally matched to low dead-time counting electronics. The 100 MHz repetition rate allows a measurement range of 10 ns without re-excitation of the sample. Rapid acquisition of time-resolved fluorescence data is essential for microscopy applications, such as fluorescence lifetime imaging. With this in mind we measured a representative dye (lifetime 376 ps) to determine the fastest collection time for a single exponential decay. Other dyes were also used with lifetimes ranging from ∼90 ps to 4 ns.