Condensed Matter Seminar: Instabilities and flow-induced defects in lyotropic chromonic liquid crystals
Irmgard Bischofberger, MIT
Zoom: https://us02web.zoom.us/j/86034538539
Abstract:
Lyotropic chromonic liquid crystals in the nematic phase are anisotropic fluids. We exploit this intrinsic anisotropy to probe growth morphology transitions that occur in the viscous-fingering instability upon the displacement of the liquid crystal by a less-viscous Newtonian liquid. In isotropic systems, this instability produces complex patterns that are characterized by repeated branching of the evolving structure, which leads to the common morphologies of fractal or dense-branching growth. In anisotropic systems, by contrast, the growth morphology changes to dendritic growth characterized by stable needle-like structures. We show that the morphology transition coincides with the onset of shear-alignment at high shear rates, where the shear forces become dominant over the elastic forces from the nematogenic potential. Below this critical shear rate, the lyotropic chromonic liquid crystal exhibits a tumbling behavior that leads to the formation of pure twist disclination loops and, surprisingly, to the spontaneous emergence of chiral domains at low shear rates.
Event Organizer: Prof. Eran Sela