Multidimensional entire solutions for an elliptic system modelling phase separation

Nicola Soave; Alessandro Zilio

doi:10.2140/apde.2016.9.1019

2016 Multidimensional entire solutions for an elliptic system modelling phase separation

Nicola Soave, Alessandro Zilio

Anal. PDE 9(5): 1019-1041 (2016). DOI: 10.2140/apde.2016.9.1019

Abstract

For the system of semilinear elliptic equations

$Δ V_{i} = V_{i} \sum_{j \neq i} V_{j}^{2}, V_{i} > 0 in ℝ^{N},$

we devise a new method to construct entire solutions. The method extends the existence results already available in the literature, which are concerned with the 2-dimensional case, also to higher dimensions $N \geq 3$ . In particular, we provide an explicit relation between orthogonal symmetry subgroups, optimal partition problems of the sphere, the existence of solutions and their asymptotic growth. This is achieved by means of new asymptotic estimates for competing systems and new sharp versions for monotonicity formulae of Alt–Caffarelli–Friedman type.

Citation

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Nicola Soave. Alessandro Zilio. "Multidimensional entire solutions for an elliptic system modelling phase separation." Anal. PDE 9 (5) 1019 - 1041, 2016. https://doi.org/10.2140/apde.2016.9.1019

Information

Received: 16 July 2015; Revised: 5 February 2016; Accepted: 29 April 2016; Published: 2016

First available in Project Euclid: 12 December 2017

zbMATH: 1342.35022

MathSciNet: MR3531365

Digital Object Identifier: 10.2140/apde.2016.9.1019

Subjects:

Primary: 35B06 , 35B08 , 35B53

Secondary: 35B40 , 35J47

Keywords: Almgren monotonicity formula , entire solutions of elliptic systems , equivariant solutions , Liouville theorem , nonlinear Schrödinger systems , optimal partition problems

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