Journal
SIAM JOURNAL ON MATHEMATICAL ANALYSIS
Volume 50, Issue 3, Pages 3210-3250Publisher
SIAM PUBLICATIONS
DOI: 10.1137/17M1125716
Keywords
phase separation; spatial sorting; nonlinear diffusion; long-range attraction; stationary states
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Funding
- EU Erasmus Mundus MathMods programme
- GNAMPA (Italian group of Analysis, Probability, and Applications) projects Geometric and qualitative properties of solutions to elliptic and parabolic equations
- DFG
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Macroscopic models for systems involving diffusion, short-range repulsion, and long-range attraction have been studied extensively in the last decades. In this paper we extend the analysis to a system for two species interacting with each other according to different inner-and intra-species attractions. Under suitable conditions on this self- and crosswise attraction an interesting effect can be observed, namely phase separation into neighboring regions, each of which contains only one of the species. We prove that the intersection of the support of the stationary solutions of the continuum model for the two species has zero Lebesgue measure, while the support of the sum of the two densities is a connected interval. Preliminary results indicate the existence of phase separation, i.e., spatial sorting of the different species. A detailed analysis is given in one spatial dimension. The existence and shape of segregated stationary solutions is shown via the Krein-Rutman theorem. Moreover, for small repulsion/nonlinear diffusion, also uniqueness of these stationary states is proved.
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