On elliptic systems with $k$-wise interactions in the strong competition regime: uniform H\"older bounds and properties of the limiting configurations

TL;DR

This paper studies a class of reaction-diffusion systems with multi-component interactions under strong competition, establishing uniform regularity bounds and analyzing the limiting segregated configurations as competition intensifies.

Contribution

It introduces a novel analysis of variational systems with k-wise interactions, proving uniform H"older bounds and characterizing the limit configurations in the strong competition regime.

Findings

Uniform H"older bounds for solutions up to a specific exponent

Strong convergence of minimizers to segregated configurations as competition increases

Regularity and extremality conditions for the limiting configurations

Abstract

In this paper we investigate a class of variational reaction-diffusion systems with strong competition driven by beyond-pairwise interactions. The model involves $d$ nonnegative components interacting through $k$-wise terms, with $3 \leq k \leq d$, and includes symmetric interaction coefficients accounting for multi-component effects as well as suitable nonlinear terms. We focus on minimal energy solutions, proving uniform-in-$\beta$ H\"older bounds up to an explicit threshold exponent depending only on the dimension of the space and on the order $k$ of the interaction. As $\beta \to +\infty$, we show that minimizers converge strongly in $H^1$ and in H\"older spaces to a partially segregated configuration, characterized as minimizer of a natural variational problem under a $k$-segregation constraint. Finally, we prove that every minimizer of the limit problem enjoys the H\"older regularity and we derive some basic extremality conditions.