Global well-posedness of non-isothermal inhomogeneous nematic liquid crystal flows

Dongfen Bian; Yao Xiao

doi:10.3934/dcdsb.2020161

Global well-posedness of non-isothermal inhomogeneous nematic liquid crystal flows

Dongfen Bian, Yao Xiao

School of Mathematics and Statistics

Chinese University of Hong Kong

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

In this paper, we consider the initial-boundary value problem to the non-isothermal incompressible liquid crystal system with both variable density and temperature. Global well-posedness of strong solutions is established for initial data being small perturbation around the equilibrium state. As the tools in the proof, we establish the maximal regularities of the linear Stokes equations and parabolic equations with variable coefficients and a rigid lemma for harmonic maps on bounded domains. This paper also generalizes the result in [5] to the inhomogeneous case.

Original language	English
Pages (from-to)	1243-2172
Number of pages	930
Journal	Discrete and Continuous Dynamical Systems - Series B
Volume	26
Issue number	3
DOIs	https://doi.org/10.3934/dcdsb.2020161
Publication status	Published - Mar 2021

Keywords

Global solution
Inhomogeneous case
Local solution
Maximal regularity
Nematic liquid crystal
Strong solution

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abstract = "In this paper, we consider the initial-boundary value problem to the non-isothermal incompressible liquid crystal system with both variable density and temperature. Global well-posedness of strong solutions is established for initial data being small perturbation around the equilibrium state. As the tools in the proof, we establish the maximal regularities of the linear Stokes equations and parabolic equations with variable coefficients and a rigid lemma for harmonic maps on bounded domains. This paper also generalizes the result in [5] to the inhomogeneous case.",

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AB - In this paper, we consider the initial-boundary value problem to the non-isothermal incompressible liquid crystal system with both variable density and temperature. Global well-posedness of strong solutions is established for initial data being small perturbation around the equilibrium state. As the tools in the proof, we establish the maximal regularities of the linear Stokes equations and parabolic equations with variable coefficients and a rigid lemma for harmonic maps on bounded domains. This paper also generalizes the result in [5] to the inhomogeneous case.

KW - Global solution

KW - Inhomogeneous case

KW - Local solution

KW - Maximal regularity

KW - Nematic liquid crystal

KW - Strong solution

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ER -

Global well-posedness of non-isothermal inhomogeneous nematic liquid crystal flows

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