Hydrodynamic Theories for Flows of Active Liquid Crystals and the Generalized Onsager Principle

Abstract

We articulate and apply the generalized Onsager principle to derive transport equations for active liquid crystals in a fixed domain as well as in a free surface domain adjacent to a passive fluid matrix. The Onsager principle ensures fundamental variational structure of the models as well as dissipative properties of the passive component in the models, irrespective of the choice of scale (kinetic to continuum) and of the physical potentials. Many popular models for passive and active liquid crystals in a fixed domain subject to consistent boundary conditions at solid walls, as well as active liquid crystals in a free surface domain with consistent transport equations along the free boundaries, can be systematically derived from the generalized Onsager principle. The dynamical boundary conditions are shown to reduce to the static boundary conditions for passive liquid crystals used previously.

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Document Details

Document Type
Technical Report
Publication Date
May 24, 2016
Accession Number
AD1069584

Entities

People

  • Jun Li
  • M. Gregory Forest
  • Qi Wang
  • Xiaogang Yang

Tags

Communities of Interest

  • Energy and Power Technologies

DTIC Thesaurus Topics

  • Angular Momentum
  • Boltzmann Equation
  • Chemical Reactions
  • Computational Science
  • Distribution Functions
  • Dynamics
  • Energy
  • Equations
  • Fluid Dynamics
  • Free Energy
  • Irreversible Processes
  • Liquid Crystals
  • Materials
  • Momentum
  • Phase Transformations
  • Polarity
  • Self Propelled

Readers

  • Fluid Dynamics.
  • Quantum spin resonance or Electron Paramagnetic Resonance spectroscopy.
  • Theoretical Analysis.