Electrooptic response of chiral nematic with conical helicoidal director deformation

Electrically induced reorientation of liquid crystal (LC) director caused by dielectric anisotropy is a fundamental phenomenon widely used in modern technologies. We report on the experimental observation of an electrooptic effect with a distinct conical helicoid deformation of the director. The effect is observed in a chiral nematic in which the ground state of the director represents a right-angle helicoid. Application of the electric field along the helicoid axis transforms it into an oblique-angle helicoid. Further increase of the field causes complete unwinding into a uniaxial nematic state, in agreement with the theory proposed by R.B. Meyer in 1968. The effect is observed in a dimer nematic material in which the bend elastic constant is smaller than its twist counterpart.