Slow spinodal decomposition in binary liquid mixtures of polymers. IV. Scaled structure factor for later stage unmixing

Abstract

The later‐stage spinodal decomposition (SD) of polymer mixtures at deep quenches were investigated by time‐resolved light scattering. The scaled structure factor F(x)≡q_m (t,T)³I(x) with x≡q/q_m (t,T) was analyzed as a function of time t or reduced time τ during the SD at various temperatures T’s, where q_m (t,T) is the magnitude of the scattering vector q at which the first‐order peak of the scattering intensity profile I(q;t,T) appears. Spectacular features in F(x) were discovered; (i) F(x) at large x is not universal with t but rather increasing with t, implying that the local structure is not scaled with a single length parameter 1/q_m (t,T) used for the scaling of the global structure at x≂1, (ii) F(x) shows the second‐ and the third‐order peaks or shoulders at x=2 and 3, and (iii) F(x) exhibits a dynamical crossover from x⁻ⁿ (n≂6) to x⁻⁴ with t in the asymptotic behavior at x≳2, as well as a spatial crossover from x⁻ⁿ to x⁻⁴ with x at τ in the sufficiently late stage.