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Uniqueness and Nonuniqueness of Steady States of <scp>Aggregation‐Diffusion</scp> Equations

Matías G. Delgadino, Xukai Yan, Yao Yao

2020Communications on Pure and Applied Mathematics27 citationsDOI

Abstract

Abstract We consider a nonlocal aggregation equation with degenerate diffusion, which describes the mean‐field limit of interacting particles driven by nonlocal interactions and localized repulsion. When the interaction potential is attractive, it is previously known that all steady states must be radially decreasing up to a translation, but uniqueness (for a given mass) within the radial class was open, except for some special interaction potentials. For general attractive potentials, we show that the uniqueness/nonuniqueness criteria are determined by the power of the degenerate diffusion, with the critical power being m = 2. In the case m ≥ 2, we show that for any attractive potential the steady state is unique for a fixed mass. In the case 1 &lt; m &lt; 2, we construct examples of smooth attractive potentials such that there are infinitely many radially decreasing steady states of the same mass. For the uniqueness proof, we develop a novel interpolation curve between two radially decreasing densities, and the key step is to show that the interaction energy is convex along this curve for any attractive interaction potential, which is of independent interest. © 2020 Wiley Periodicals LLC.

Topics & Concepts

UniquenessDegenerate energy levelsMathematicsSteady state (chemistry)Limit (mathematics)DiffusionMathematical analysisRegular polygonPhysicsQuantum mechanicsGeometryChemistryPhysical chemistryMathematical Biology Tumor GrowthNonlinear Partial Differential EquationsAdvanced Mathematical Modeling in Engineering
Uniqueness and Nonuniqueness of Steady States of <scp>Aggregation‐Diffusion</scp> Equations | Litcius