Steiner symmetry in the minimization of the first eigenvalue in problems involving the 𝑝-Laplacian | Zendy

Claudia Anedda | Zendy; Fabrizio Cuccu | Zendy

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Steiner symmetry in the minimization of the first eigenvalue in problems involving the 𝑝-Laplacian

Author(s) -

Claudia Anedda,

Fabrizio Cuccu

Publication year - 2015

Publication title -

proceedings of the american mathematical society

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.968

H-Index - 84

eISSN - 1088-6826

pISSN - 0002-9939

DOI - 10.1090/proc/12972

Subject(s) - eigenvalues and eigenvectors , symmetry (geometry) , minification , laplace operator , mathematics , combinatorics , pure mathematics , mathematical optimization , mathematical analysis , physics , quantum mechanics , geometry

Let Ω ⊂ ℝN be an open bounded connected set. We consider the eigenvalue problem −Δpu = λρ|u|p−2u in Ω with homogeneous Dirichlet boundary condition, where Δp is the p-Laplacian operator and ρ is an arbitrary function that takes only two given values 0 < α < β and that is subject to the constraint ∫Ω ρdx = αγ +β(|Ω|−γ) for a fixed 0 < γ < |Ω|. The optimization of the map ρ ↦ λ1(ρ), where λ1 is the first eigenvalue, has been studied by Cuccu, Emamizadeh and Porru. In this paper we consider a Steiner symmetric domain Ω and we show that the minimizers inherit the same symmetry

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