Sub-microsecond electric switching of large birefringence in the isotropic phase of ferroelectric nematics

Abstract

Conventional nonpolar nematic liquid crystals, widely known for their successful display applications, are not well-suited for fast electro-optical switching because of the slow (milliseconds) field-off relaxation of the director. In this work, we demonstrate sub-microsecond field-on and field-off switching of a large (~0.1) birefringence by applying a moderate electric field (30-100) V/μm, to an isotropic film of a ferroelectric nematic material. This highly efficient electro-optical switching is rooted in the recently discovered field-induced isotropic to ferroelectric nematic phase transition [J. Szydlowska et al., Phys. Rev. Lett. 130, 216802 (2023)]. The demonstrated sub-microsecond switching of ferroelectric birefringence induced by field (FBIF) has the potential for applications in fast-switching electro-optic devices, such as phase modulators, light shutters, beam steerers, switchable optical compensators.