Computing with non-orientable defects: Nematics, Smectics and Natural patterns

Defects, a ubiquitous feature of ordered media, have certain universal features, independent of the underlying physical system, reflecting their topological, as opposed to energetic origins. We exploit this universality, in conjunction with smoothing defects by "spreading them out", to develop a modeling framework and associated numerical methods that are applicable to computing energy driven behaviors of defects across the amorphous-soft-crystalline materials spectrum. Our methods can handle order parameters that have a head-tail symmetry, i.e. director fields, in systems with a continuous translation symmetry, as in a nematic liquid crystal, and in systems where the translation symmetry is broken, as in smectics and convection pattern. We illustrate our methods with explicit computations.