Uniform \(L^p\) Estimates for Solutions to the Inhomogeneous 2D Navier–Stokes Equations and Application to a Chemotaxis–Fluid System with Local Sensing

IF 1.2 3区 数学 Q2 MATHEMATICS, APPLIED
Mario Fuest, Michael Winkler
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引用次数: 0

Abstract

The chemotaxis-Navier–Stokes system

$$\begin{aligned} \left\{ \begin{array}{rcl} n_t+u\cdot \nabla n & =& \Delta \big (n c^{-\alpha } \big ), \\ c_t+ u\cdot \nabla c & =& \Delta c -nc,\\ u_t + (u\cdot \nabla ) u & =& \Delta u+\nabla P + n\nabla \Phi , \qquad \nabla \cdot u=0, \end{array} \right. \end{aligned}$$

modelling the behavior of aerobic bacteria in a fluid drop, is considered in a smoothly bounded domain \(\Omega \subset \mathbb R^2\). For all \(\alpha > 0\) and all sufficiently regular \(\Phi \), we construct global classical solutions and thereby extend recent results for the fluid-free analogue to the system coupled to a Navier–Stokes system. As a crucial new challenge, our analysis requires a priori estimates for u at a point in the proof when knowledge about n is essentially limited to the observation that the mass is conserved. To overcome this problem, we also prove new uniform-in-time \(L^p\) estimates for solutions to the inhomogeneous Navier–Stokes equations merely depending on the space-time \(L^2\) norm of the force term raised to an arbitrary small power.

非均质二维纳维-斯托克斯方程组解的均匀 $$L^p$$ 估计数及其在具有局部感应的趋化-流体系统中的应用
趋化-纳维尔-斯托克斯系统 $$\begin{aligned}\n_t+u\cdot \nabla n & =& \Delta \big (n c^{-\alpha } \big ),\c_t+ u\cdot \nabla c & =&;\Delta c -nc,\ u_t + (u\cdot \nabla ) u & =& \Delta u+\nabla P + n\nabla \Phi , \qquad \nabla \cdot u=0, \end{array}.\对\end{aligned}$$模拟好氧细菌在液滴中的行为,在平滑有界域 \(\Omega \subset \mathbb R^2\) 中进行考虑。对于所有的(\alpha > 0)和所有足够规则的(\Phi \),我们构建了全局经典解,从而将最近的无流体类似结果扩展到了与纳维-斯托克斯系统耦合的系统。作为一个关键的新挑战,我们的分析要求在证明中的某一点对 u 进行先验估计,而此时关于 n 的知识基本上仅限于观察到质量是守恒的。为了克服这个问题,我们还为非均质纳维-斯托克斯方程的解证明了新的时间均匀(L^p\)估计值,而这些估计值仅仅取决于力项的时空(L^2\)规范,并将其提升到一个任意小的幂。
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来源期刊
CiteScore
2.00
自引率
15.40%
发文量
97
审稿时长
>12 weeks
期刊介绍: The Journal of Mathematical Fluid Mechanics (JMFM)is a forum for the publication of high-quality peer-reviewed papers on the mathematical theory of fluid mechanics, with special regards to the Navier-Stokes equations. As an important part of that, the journal encourages papers dealing with mathematical aspects of computational theory, as well as with applications in science and engineering. The journal also publishes in related areas of mathematics that have a direct bearing on the mathematical theory of fluid mechanics. All papers will be characterized by originality and mathematical rigor. For a paper to be accepted, it is not enough that it contains original results. In fact, results should be highly relevant to the mathematical theory of fluid mechanics, and meet a wide readership.
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