Tunable macroscopic defect patterns induced by a low-frequency AC electric field in ferroelectric nematic liquid crystals (2503.24176v1)

Abstract: Regulation of topological structures and pattern formation is attracting wide interest in the field of condensed matter. Liquid crystals (LCs) represent soft matter with a remarkable combination of fluidity and anisotropic properties. Topological defects may appear in confined LCs under external stimuli. Recently discovered ferroelectric nematics (NF) opened exceptional opportunities in technologies owing to high permittivity and polarisation. Polar properties of NF supply more variability to topological structures. In this research, we present tunable 2D topological defect arrays in NF compound, induced by an alternating (AC) electric field in simple sandwich cells without pre-patterning. The observed arrays of defects form pseudo-square lattices, which character and periodicity depend on the frequency of the applied field and partially on the cell thickness. The observed effect is explained to occur due to the competition between elastic and electrical forces. The proposed system can be useful to create reconfigurable spatially periodic polarisation structures.