Topological defects around a spherical nanoparticle in nematic liquid crystal: coarse-grained molecular dynamics simulations.

@article{Ilnytskyi2014TopologicalDA,
  title={Topological defects around a spherical nanoparticle in nematic liquid crystal: coarse-grained molecular dynamics simulations.},
  author={Jaroslav M. Ilnytskyi and Andrij Trokhymchuk and Martin A. W. Schoen},
  journal={The Journal of chemical physics},
  year={2014},
  volume={141 11},
  pages={
          114903
        }
}
We consider the applicability of coarse-grained molecular dynamics for the simulation of defects in a nematic liquid crystal around a colloidal particle. Two types of colloids are considered, a soft colloid resembling a liquid crystal dendrimer or a similar macromolecule. In addition, a decorated colloid is used which could represent a gold nanoparticle with mesogen-modified surface. For both models we consider homeotropic and tangential anchoring. Precise control of the easy axis on the… 
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