Counterintuitive dependence of temporal asymptotics on initial decay in a nonlocal degenerate parabolic equation arising in game theory

Lankeit, Johannes; Winkler, Michael

doi:10.1007/s11856-019-1900-8

Cited by 1 publication

(1 citation statement)

References 22 publications

(37 reference statements)

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“…(and homogenous boundary conditions) have been studied in [21,56,34,32,38]. The case m = p = 1 arises in a model of replicator dynamics.…”

Section: Introduction 1motivations and Aims Of The Papermentioning

confidence: 99%

Convergence, concentration and critical mass phenomena in a chemotaxis model with boundary signal production for eukaryotic cell migration

Meunier¹,

Souplet²

2023

Preprint

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We consider a model of chemotaxis with boundary signal production which describes some aspects of eukaryotic cell migration. Generic polarity markers located in the cell are transported by actin which they help to polymerize, i.e. the actin velocity depends on the asymmetry of the marker concentration profile. This leads to a problem whose mathematical novelty is the nonlinear and nonlocal destabilizing term in the boundary condition. This model is a more rigorous version of a toy model first introduced in [44].We provide a detailed study of the qualitative properties of this model, namely local and global existence, convergence and blow-up of solutions. We start with a complete analysis of local existence-uniqueness in Lebesgue spaces. This turns out to be particularly relevant, in view of the mass conservation property and of the existence of L p Liapunov functionals, also obtained in this paper. The optimal L p space of our local theory agrees with the scale invariance of the problem.With the help of this local theory, we next study the global existence and convergence of solutions. In particular, in the case of quadratic nonlinearity, for any space dimension, we find an explicit, sharp mass threshold for global existence vs. finite time blow-up of solutions. The proof is delicate, based on the possiblity to control the solution by means of the entropy function via an ε-regularity type argument. This critical mass phenomenon is somehow reminiscent of the well-known situation for the 2d Keller-Segel system. For nonlinearitities with general power growth, under a suitable smallness condition on the initial data, we show that solutions exist globally and converge exponentially to a constant.As for the possibility of blow-up for large initial data, it turns out to occur only for nonlinearities with quadratic or superquadratic growth, whereas all solutions are shown to be global and bounded in the subquadratic case, thus revealing the existence of a sharp critical exponent for blow-up. Finally, we analyse some aspects of the blow-up asymptotics of solutions in time and space.

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“…(and homogenous boundary conditions) have been studied in [21,56,34,32,38]. The case m = p = 1 arises in a model of replicator dynamics.…”

Section: Introduction 1motivations and Aims Of The Papermentioning

confidence: 99%

Convergence, concentration and critical mass phenomena in a chemotaxis model with boundary signal production for eukaryotic cell migration

Meunier¹,

Souplet²

2023

Preprint

View full text Add to dashboard Cite

show abstract

Counterintuitive dependence of temporal asymptotics on initial decay in a nonlocal degenerate parabolic equation arising in game theory

Cited by 1 publication

References 22 publications

Convergence, concentration and critical mass phenomena in a chemotaxis model with boundary signal production for eukaryotic cell migration

Convergence, concentration and critical mass phenomena in a chemotaxis model with boundary signal production for eukaryotic cell migration

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