Auto-correlation Function Analysis of Scattered Light Intensity at Different Scattering Angles

In this work, the effects of the scattering angle on the nonexponentiality of the normalized time auto-correlation function of the scattered light intensity g (τ ) are investigated using dilute Poly(N-isopropylacrylamide) microgel and standard polystyrene latex samples in dispersion respectively. The results show that the influences of the scattering angle on the deviation between an exponentiality and g (τ) are small. With the assistance of the simulated data of g (τ ), the effects of the particle size distribution and scattering angle on the deviation between an exponentiality and g (τ) are explored. The analysis reveals that the nonexponentiality of g (τ ) is determined by the particle size distribution and scattering angle. In general, the influences of the particle size distribution are small on the nonexponentiality of g (τ) and very large on the initial slope of the logarithm of g (τ) and the effects of the scattering angle are determined by the particle size distribution and mean particle size. Under some conditions, the deviation between an exponentiality and g (τ ) is greatly influenced by the scattering angle. The values of the apparent hydrodynamic radius are also determined by the particle size distribution and scattering angle. The apparent hydrodynamic radius and its distribution obtained using the cumulants method are different from the hydrodynamic radius and its distribution.