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Hauptverfasser: Carrillo, Jose A., Li, Bin, Xie, Li
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2503.12081
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author Carrillo, Jose A.
Li, Bin
Xie, Li
author_facet Carrillo, Jose A.
Li, Bin
Xie, Li
contents This paper is concerned with the Dirichlet initial-boundary value problem of a 2-D parabolic-elliptic system proposed to model the formation of biological transport networks. Even if global weak solutions for this system are known to exist, how to improve the regularity of weak solutions is a challenging problem due to the peculiar cubic nonlinearity and the possible elliptic singularity of the system. Global-in-time existence of classical solutions has recently been established showing that finite time singularities cannot emerge in this problem. However, whether or not singularities in infinite time can be precluded was still pending. In this work, we show that classical solutions of the initial-boundary value problem are uniformly bounded in time as long as $γ\geq1$ and $κ$ is suitably large, closing this gap in the literature. Moreover, uniqueness of classical solutions is also achieved based on the uniform-in-time bounds. Furthermore, it is shown that the corresponding stationary problem possesses a unique classical stationary solution which is semi-trivial, and that is globally exponentially stable, that is, all solutions of the time dependent problem converge exponentially fast to the semi-trivial steady state for $κ$ large enough.
format Preprint
id arxiv_https___arxiv_org_abs_2503_12081
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Boundedness and stability of a 2-D parabolic-elliptic system arising in biological transport networks
Carrillo, Jose A.
Li, Bin
Xie, Li
Analysis of PDEs
This paper is concerned with the Dirichlet initial-boundary value problem of a 2-D parabolic-elliptic system proposed to model the formation of biological transport networks. Even if global weak solutions for this system are known to exist, how to improve the regularity of weak solutions is a challenging problem due to the peculiar cubic nonlinearity and the possible elliptic singularity of the system. Global-in-time existence of classical solutions has recently been established showing that finite time singularities cannot emerge in this problem. However, whether or not singularities in infinite time can be precluded was still pending. In this work, we show that classical solutions of the initial-boundary value problem are uniformly bounded in time as long as $γ\geq1$ and $κ$ is suitably large, closing this gap in the literature. Moreover, uniqueness of classical solutions is also achieved based on the uniform-in-time bounds. Furthermore, it is shown that the corresponding stationary problem possesses a unique classical stationary solution which is semi-trivial, and that is globally exponentially stable, that is, all solutions of the time dependent problem converge exponentially fast to the semi-trivial steady state for $κ$ large enough.
title Boundedness and stability of a 2-D parabolic-elliptic system arising in biological transport networks
topic Analysis of PDEs
url https://arxiv.org/abs/2503.12081