The fast signal diffusion limit in a chemotaxis system with strong signal sensitivity

Mizukami, Masaaki

doi:10.1002/mana.201700270

Cited by 3 publications

(6 citation statements)

References 30 publications

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“…In this paper our aim is, by considering that the parabolic-elliptic system is as a limit of its parabolic-parabolic case, to establish a result such that only dealing with the parabolic-parabolic Keller-Segel system is enough to obtain new properties for solutions of its parabolic-elliptic case. As a related work, in the study of a chemotaxis system with signal-dependent sensitivity, some result on this subject has already been obtained ( [18]); however, in this study we could not attain a result on a minimal Keller-Segel system from a technical reason. Thus the subject of this paper is a challenging problem for a progress of the chemotaxis system.…”

Section: Introductionmentioning

confidence: 56%

“…, a positive answer to this question is also shown under the condition that χ 0 is small [18]. Therefore we can expect a positive answer to this question also in the Keller-Segel system in a bounded domain Ω in some case.…”

Section: Introductionmentioning

confidence: 87%

“…Thus we cannot use methods only for parabolic equations and only for elliptic equations when we would like to obtain some error estimate for solutions of (1.1) and those of (1.2), and it seems to be difficult to combine these methods. Therefore we rely on a compactness method to obtain convergence of a solution (u λ , v λ ) as λ ց 0, which is the same strategy as that of the proof of [18,Theorem 1.3]. In order to use a compactness method some estimate for the solution uniformly in time and λ is required.…”

Section: Introductionmentioning

confidence: 99%

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The fast signal diffusion limit in a Keller–Segel system

Mizukami

2019

Journal of Mathematical Analysis and Applications

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This paper deals with convergence of a solution for the parabolic-parabolic Keller-Segel systemto that for the parabolic-elliptic Keller-Segel systemas λ ց 0, where Ω is a bounded domain in R n (n ≥ 2) with smooth boundary, χ, λ > 0 are constants. In chemotaxis systems parabolic-elliptic systems often provided some guide to methods and results for parabolic-parabolic systems. However, there have not been rich results on the relation between parabolic-elliptic systems and parabolic-parabolic systems. Namely, it still remains to analyze on the following question except some cases: Does a solution of the parabolic-parabolic system converge to that of the parabolic-elliptic system as λ ց 0? In the case that Ω is the whole space R n , or Ω is a bounded domain and χ is a strong signal sensitivity, some positive answer was shown in the author's previous paper (Math. Nachr., to appear). Therefore one can expect a positive answer to this question also in the Keller-Segel system in a bounded domain Ω in some cases. This paper gives some positive answer in the 2-dimensional and the higher-dimensional Keller-Segel system.2010Mathematics Subject Classification. Primary: 35A09; Secondary: 35K51, 35J15, 92C17.

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Section: Introductionmentioning

confidence: 56%

Section: Introductionmentioning

confidence: 87%

Section: Introductionmentioning

confidence: 99%

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The fast signal diffusion limit in a Keller–Segel system

Mizukami

2019

Journal of Mathematical Analysis and Applications

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“…We became aware of mistakes in the proof of [, Theorem 1.3]. We would like to thank Professor Michael Winkler for pointing out these mistakes, and moreover, appreciated his modifying arguments in his joint paper with Professors Yulan Wang and Zhaoyin Xiang ([]).…”

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confidence: 99%

“…We would like to thank Professor Michael Winkler for pointing out these mistakes, and moreover, appreciated his modifying arguments in his joint paper with Professors Yulan Wang and Zhaoyin Xiang ([]). In the following notations of the paper are used. The estimate

\begin{matrix} true \\ right {‖u_{λ} false(\cdot, t false)‖}_{L^{\infty} (Ω)} + {false∥ v_{λ} (\cdot, t) false∥}_{W^{1, q} (Ω)} \leq C for all t > 0 and all λ \in (0, λ_{0}), \end{matrix}

obtained in Theorem 1.2, is correct under the condition that

χ_{0} < \frac{2 k {(a + η)}^{k - 1}}{n}

.…”

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confidence: 99%

Erratum to the paper “The fast signal diffusion limit in a chemotaxis system with strong signal sensitivity”

Mizukami

2019

Mathematische Nachrichten

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K E Y W O R D S : chemotaxis system with signal sensitivity, parabolic-elliptic system, parabolic-parabolic system M S C ( 2 0 1 0 ) : Primary: 35A09; Secondary: 35J15, 35K51, 92C17We became aware of mistakes in the proof of [1, Theorem 1.3]. We would like to thank Professor Michael Winkler for pointing out these mistakes, and moreover, appreciated his modifying arguments in his joint paper with Professors Yulan Wang and Zhaoyin Xiang ([2]). In the following notations of the paper [1] are used. The estimate

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Stabilization for small mass in a quasilinear parabolic--elliptic--elliptic attraction-repulsion chemotaxis system with density-dependent sensitivity: repulsion-dominant case

Chiyo¹

2022

Preprint

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This paper deals with the quasilinear attraction-repulsion chemotaxis systemwith smooth boundary ∂Ω, where m, p, q ∈ R, χ, ξ, α, β, γ, δ > 0 are constants. In the case that m = 1 and p = q = 2, when χα − ξγ < 0 and β = δ, Tao-Wang (Math. Models Methods Appl. Sci.; 2013; 23; 1-36) proved that global bounded classical solutions toward the spatially constant equilibrium (u 0 , α β u 0 , γ δ u 0 ) via the reduction to the Keller-Segel system by using the transformation z := χv − ξw, where u 0 is the spatial average of the initial data u 0 . However, since the above system involves nonlinearities, the method is no longer valid. The purpose of this paper is to establish that global bounded classical solutions converge to the spatially constant equilibrium (u 0 , α β u 0 , γ δ u 0 ).

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The fast signal diffusion limit in a chemotaxis system with strong signal sensitivity

Cited by 3 publications

References 30 publications

The fast signal diffusion limit in a Keller–Segel system

The fast signal diffusion limit in a Keller–Segel system

Erratum to the paper “The fast signal diffusion limit in a chemotaxis system with strong signal sensitivity”

Stabilization for small mass in a quasilinear parabolic--elliptic--elliptic attraction-repulsion chemotaxis system with density-dependent sensitivity: repulsion-dominant case

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