Majed Sofiani scite author profile

In this work, we study the Cauchy problem of Poiseuille flow of the full Ericksen-Leslie model for nematic liquid crystals. The model is a coupled system of two partial differential equations: One is a quasi-linear wave equation for the director field representing the crystallization of the nematics, and the other is a parabolic PDE for the velocity field characterizing the liquidity of the material. We extend the work in [Chen, et. al. Arch. Ration. Mech. Anal. 236 (2020), 839-891] for a special case to the general physical setup. The Cauchy problem is shown to have global solutions beyond singularity formation. Among a number of progresses made in this paper, a particular contribution is a systematic treatment of a parabolic PDE with only Hölder continuous diffusion coefficient and rough (worse than Hölder) nonhomogeneous terms.

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The Poiseuille Flow of the Full Ericksen-Leslie Model for Nematic Liquid Crystals: The General Case

Chen¹,

Liu²,

Sofiani³

2023

Preprint

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Majed Sofiani

On parabolic partial differential equations with Hölder continuous diffusion coefficients

Singularity Formation for the General Poiseuille Flow of Nematic Liquid Crystals

On parabolic partial differential equations with Hölder continuous diffusion coefficients

The Poiseuille flow of the full Ericksen-Leslie model for nematic liquid crystals: The general Case

The Poiseuille Flow of the Full Ericksen-Leslie Model for Nematic Liquid Crystals: The General Case

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