Double Splay Nematic Order in Confined Polar Fluids

Abstract

In this study, we demonstrate that when a ferroelectric nematic is confined between two glass plates coated with ionic polymers, a modulated phase emerges in a narrow temperature range between the nematic and ferroelectric nematic phases. This modulated phase emerges from the nematic phase in a continuous manner and then transforms into the ferroelectric nematic phase via a first-order transition upon cooling. Using optical microscopy, we provide compelling evidence that this modulated phase corresponds to the theoretically predicted double splay nematic phase. In this phase, splay deformations alternate in two orthogonal directions oriented at 45 to the substrate surfaces, creating a modulation wavelength that is twice the thickness of the cell. Our experiments with different ionic coatings reveal that only polymeric cationic coatings effectively promote the formation of this phase, highlighting the critical role of electrical screening. These findings not only confirm the existence of the double splay nematic phase but also provide insights into the distinctive topological defects of this phase in confined geometries.

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