Elastic interactions between topological defects in chiral nematic shells
Abstract
We present a novel, self-consistent and robust theoretical model to investigate elastic interactions between topological defects in liquid crystal shells. Accounting for the non-concentric nature of the shell in a simple manner, we are able to successfully and accurately explain and predict the positions of the defects, most relevant in the context of colloidal self-assembly. We calibrate and test our model on existing experimental data, and extend it to all newly observed defects configurations in chiral nematic shells. We perform new experiments to check further and confirm the validity of the present model. Moreover, we are able to obtain quantitative estimates of the energies of or disclination lines in cholesterics, whose intricate nature was only reported recently.
Cite
@article{arxiv.1608.00714,
title = {Elastic interactions between topological defects in chiral nematic shells},
author = {Alexandre Darmon and Olivier Dauchot and Teresa Lopez-Leon and Michael Benzaquen},
journal= {arXiv preprint arXiv:1608.00714},
year = {2016}
}
Comments
6 pages, 5 figures