Asymptotic stability of diffusion waves of a quasi-linear hyperbolic-parabolic model for vasculogenesis

Please use this identifier to cite or link to this item: http://hdl.handle.net/10397/95652

Title:	Asymptotic stability of diffusion waves of a quasi-linear hyperbolic-parabolic model for vasculogenesis
Authors:	Liu, Q Peng, H Wang, ZA
Issue Date:	2022
Source:	SIAM journal on mathematical analysis, 2022, v. 54, no. 1, p. 1313-1346
Abstract:	In this paper, we derive the large-time profile of solutions to the Cauchy problem of a hyperbolic-parabolic system modeling the vasculogenesis in R 3. When the initial data are prescribed in the vicinity of a constant ground state, by constructing a time-frequency Lyapunov functional and employing the Fourier energy method and delicate spectral analysis, we show that solutions of the Cauchy problem tend time-asymptotically to linear diffusion waves around the constant ground state with algebraic decaying rates under suitable conditions on the density-dependent pressure function.
Keywords:	Darcy's law Diffusion waves Hyperbolic-parabolic model Spectral analysis Vasculogenesis
Publisher:	Society for Industrial and Applied Mathematics
Journal:	SIAM journal on mathematical analysis
ISSN:	0036-1410
EISSN:	1095-7154
DOI:	10.1137/21M1418150
Rights:	© 2022 Society for Industrial and Applied Mathematics The following publication Gui, X., Li, B., & Wang, J. (2022). Convergence of Renormalized Finite Element Methods for Heat Flow of Harmonic Maps. SIAM Journal on Numerical Analysis, 60(1), 312-338 is available at https://doi.org/10.1137/21M1402212.
Appears in Collections:	Journal/Magazine Article

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