Smectic-like rheology and pseudo-layer compression elastic constant of a twist-bend nematic liquid crystal

Abstract

In twist-bend nematic (NTB) liquid crystals (LCs), the mean molecular orientation exhibits heliconical structure with nanoscale periodicity. On the mesoscopic scale, NTB resembles layered systems (like smectics), where the helical pitch is equivalent to "pseudo-layers" without a true mass density wave. We study rheological properties of a NTB phase and compare the results with those of an usual SmA phase. Analysing the shear response and adapting a simplified physical model for rheology of defect mediated lamellar systems we measure the pseudo-layer compression elastic constant Beff of NTB phase from the measurements of dynamic modulus G*(ω). We find that Beff of the NTB phase is in the range of 103-106 Pa and it follows a temperature dependence, Beff (TTB-T)2 as predicted by the recent coarse-grained elastic theory. Our results show that the structural rheology of NTB is strikingly similar to that of the usual smectic LCs although the temperature dependence of Beff is much faster than smectic LCs as predicted by the coarse-grained models.