Excited State Lifetime MeasurementsExcited State Lifetime Measurements attempts to assist in clarifying and unifying the many characteristics and definitions of excited state lifetime measurements. The contents of this book are derived from a series of lectures presented to a research group in the University of New Mexico in 1967. The relevance as well as the methods and measurements of data treatment of excited state lifetimes are featured in this book. The first three chapters provide a brief discussion on concepts and applications of excited state lifetime measurements. Experimental methods and systems are also introduced i ... |
Contents
Applications | 1 |
H Micelle Composition | 7 |
Flash Photolysis | 23 |
Copyright | |
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a₁ a₂ approach assume cable calculated Chapter Chem complex component convergence convolution integral data reduction decay curve deconvolution Demas derivative detector DISP distortion distribution electron emission energy transfer equations errors evaluated example excimer exciplex excitation pulse exponential decay flash lamp flash photolysis fluorescence function impulse response initial guesses INPUT instrument intensity iterations K₁ K₂ kinetics laser least squares fitting lifetime measurements linear linear least squares luminescence microcomputer modulation molecules moments method monitoring noise-free noisy nonlinear least squares normal nsec obtained oscilloscope parameters peak phase plane method photocathode photon phototube Phys points preexponential factor problem psec pulse width quenching random number RC time constant reduced runs test sample lifetime semilogarithmic plot signal simple simplex simulations single-exponential single-photon counting solution speed standard deviation T₁ tion transient transient recorder triggering unweighted values versus waveform wavelength weighted yields zero
