On an incompressible inertial nematic electrolyte model of liquid crystal flow
DOI10.1080/00036811.2023.2256351MaRDI QIDQ6608463
Publication date: 19 September 2024
Published in: Applicable Analysis (Search for Journal in Brave)
Smoothness and regularity of solutions to PDEs (35B65) PDEs in connection with fluid mechanics (35Q35) A priori estimates in context of PDEs (35B45) Liquid crystals (76A15) Magnetohydrodynamics and electrohydrodynamics (76W05) Existence problems for PDEs: global existence, local existence, non-existence (35A01) Maxwell equations (35Q61) Uniqueness problems for PDEs: global uniqueness, local uniqueness, non-uniqueness (35A02) Electrochemistry (78A57) Classical solutions to PDEs (35A09)
Cites Work
- Title not available (Why is that?)
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- Global existence of solutions of the liquid crystal flow for the Oseen-Frank model in \(\mathbb R^2\)
- Global existence of weak solution for the 2-D Ericksen-Leslie system
- Regularity and existence of global solutions to the Ericksen-Leslie system in \({\mathbb{R}^2}\)
- Reaction-diffusion problems in electrolysis
- Long time behavior of solutions of Nernst-Planck and Debye-Hückel drift-diffusion systems
- Non-isothermal electrokinetics: energetic variational approach
- Global well-posedness and twist-wave solutions for the inertial Qian-Sheng model of liquid crystals
- Weak sequential stability for a nonlinear model of nematic electrolytes
- On dissipative solutions to a simplified hyperbolic Ericksen-Leslie system of liquid crystals
- Stability of equilibria to the model for non-isothermal electrokinetics
- Global well-posedness for the three dimensional simplified inertial Ericksen-Leslie systems near equilibrium
- Global well-posedness to incompressible non-inertial Qian-Sheng model
- Global existence of the non-isothermal Poisson-Nernst-Planck-Fourier system
- Low Mach number limit for the compressible inertial Qian-Sheng model of liquid crystals: convergence for classical solutions
- The zero inertia limit from hyperbolic to parabolic Ericksen-Leslie system of liquid crystal flow
- Global existence of solutions for the Poisson-Nernst-Planck system with steric effects
- Mathematical studies of Poisson-Nernst-Planck model for membrane channels: finite ion size effects without electroneutrality boundary conditions
- Well-posedness of the Ericksen-Leslie system
- On large time asymptotics for drift-diffusion-poisson systems
- On the uniqueness of weak solutions to the Ericksen-Leslie liquid crystal model in \(\mathbb{R}^2\)
- Modeling of nematic electrolytes and nonlinear electroosmosis
- Endpoint bilinear estimates and applications to the two-dimensional Poisson-Nernst-Planck system
- Asymptotic Analysis on Dielectric Boundary Effects of Modified Poisson--Nernst--Planck Equations
- On a hyperbolic system arising in liquid crystals modeling
- On Well-Posedness of Ericksen--Leslie's Hyperbolic Incompressible Liquid Crystal Model
- On well-posedness of Ericksen–Leslie’s parabolic–hyperbolic liquid crystal model in compressible flow
- Entropy inequality and energy dissipation of inertial Qian–Sheng model for nematic liquid crystals
- Small Data Global Regularity for the 3-D Ericksen--Leslie Hyperbolic Liquid Crystal Model without Kinematic Transport
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