A maximum principle for the p-Laplacian, an eigenvalue estimate and a stabilization phenomenon for the large-p regime

Abstract

We establish an explicit maximum principle for the Dirichlet problem associated with the p-Laplacian (p>1), where the constant depends on both p and the geometry of the domain. From this result we derive two main applications. First, we obtain a new lower bound for the first nontrivial eigenvalue of the p-Laplacian, which improves upon existing estimates in certain parameter regimes and for thin domains. Second, we prove an existence theorem for nonlinear boundary value problems of the form \[ -Δp u = λf(u) in Ω, u=0 on ∂ Ω, \] with f nonnegative, continuous and nondecreasing. A striking consequence is the emergence of a stabilization phenomenon: for every such nonlinearity there exists a threshold p0 = p0(f,λ,Ω) such that for all p ≥ p0 solutions exist. To our knowledge, this stabilization effect with respect to p, that apparently has not been observed before, suggests a connection to the ∞-Laplacian.