2134/16008
Te-Sheng Lin
Te-Sheng
Lin
Linda J. Cummings
Linda J.
Cummings
Andrew Archer
Andrew
Archer
Lou Kondic
Lou
Kondic
Uwe Thiele
Uwe
Thiele
Note on the hydrodynamic description of thin nematic films: strong anchoring model
Loughborough University
2014
untagged
Mathematical Sciences not elsewhere classified
2014-10-07 13:19:42
Journal contribution
https://repository.lboro.ac.uk/articles/journal_contribution/Note_on_the_hydrodynamic_description_of_thin_nematic_films_strong_anchoring_model/9389060
We discuss the long-wave hydrodynamic model for a thin film of nematic liquid crystal in the limit of strong anchoring at the free surface and at the substrate. We rigorously clarify how the elastic energy enters the evolution equation for the film thickness in order to provide a solid basis for further investigation: several conflicting models exist in the literature that predict qualitatively different behaviour. We consolidate the various approaches and show that the long-wave model derived through an asymptotic expansion of the full nemato-hydrodynamic equations with consistent boundary conditions agrees with the model one obtains by employing a thermodynamically motivated gradient dynamics formulation based on an underlying free energy functional. As a result, we find that in the case of strong anchoring the elastic distortion energy is always stabilising. To support the discussion in the main part of the paper, an appendix gives the full derivation of the evolution equation for the film thickness via asymptotic expansion.