Polar and apolar light-induced alignment of ferroelectric nematic at photosensitive polymer substrate

TL;DR

This paper demonstrates that photosensitive polymer substrates can induce multiple alignment modes in ferroelectric nematic liquid crystals using UV light, offering versatile and contactless control over their polarization states.

Contribution

It introduces novel UV light-induced alignment modes in ferroelectric nematic liquid crystals on photosensitive polymer substrates, expanding the possibilities for their practical application.

Findings

Two distinct UV-induced alignment modes identified

Polar mode exhibits a single stable polarization direction

Apolar mode allows reversible switching between two states

Abstract

Surface alignment of a recently discovered ferroelectric nematic liquid crystal (NF) is usually achieved by buffed polymer films, which produce a unidirectional polar alignment of the spontaneous electric polarization. We demonstrate that photosensitive polymer substrates could provide a wider variety of alignment modes. Namely, a polyvinyl cinnamate polymer film irradiated by linearly polarized ultraviolet (UV) light yields two modes of surface orientation of the NF polarization. (1) A planar apolar mode, in which the equilibrium NF polarization aligns perpendicularly to the polarization of normally impinging UV light; the NF polarization adopts either of the two antiparallel states. (2) A planar polar mode, produced by an additional irradiation with obliquely impinging UV light. In this mode, there is only one stable azimuthal direction of polarization in the plane of the substrate. The two modes differ in their response to an electric field. In the planar apolar mode, polarization can be switched between two states of equal surface energy. In the planar polar mode, the field-perturbed polarization relaxes back to the single photoinduced easy axis once the field is switched off. The versatility of modes and absence of mechanical contact make the photoalignment of the NF attractive for practical applications.