Abstract
Fluctuations of lamellar structure prior to a lamellar-->gyroid transition in a nonionic surfactant-water system has been investigated by means of small-angle x-ray scattering (SAXS) and differential scanning calorimeter measurements. For large DeltaT (DeltaT=T-T(LG), where T is the temperature and T(LG) the lamellar-->gyroid transition temperature) in the lamellar phase, the SAXS profiles can be described by a Caille correlation function for undulating lamellar structure. Approaching the temperature to the T(LG), an excess diffuse scattering grows at the lower Q (Q is the magnitude of scattering vector) side of the first lamellar peak. Highly oriented lamellar samples revealed that the excess diffuse scattering arises from in-plane density fluctuations. We attribute this diffuse scattering to the perforation fluctuation layer (PFL) structure and we show that the PFL is an equilibrium structure. At T(LG), the PFL transformed to the gyroid phase through a transient ordered structure having a rhombohedral symmetry.
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