Time-resolved hyperspectral fluorescence spectroscopy using frequency-modulated excitation

Abstract

An intensity-modulated excitation light source is used together with a micro-channel plate intensified CCD detector gated at a slightly different frequency to generate a beat frequency from a fluorescent sample. The addition of a spectrograph produces a hyperspectral time-resolved data product where the resulting beat frequency is detected with a low frame rate camera. Measuring the beat frequency of the spectrum as a function of time allows separation of the excited fluorescence from ambient constant light sources. The excitation and detector repetition rates are varied over a range of discrete frequencies, and the phase shift of the beat wave maps out the emission decay rate(s). © 2012 American Institute of Physics.