On the definition and the properties of the principal eigenvalue of some nonlocal operators

Abstract

In this article we study some spectral properties of the linear operator L\+a defined on the space C() by : L\[] +a:=∫\K(x,y)(y)\,dy+a(x)(x) where ⊂ RN is a domain, possibly unbounded, a is a continuous bounded function and K is a continuous, non negative kernel satisfying an integrability condition. We focus our analysis on the properties of the generalised principal eigenvalue λ\p(L\+a) defined by λ\p(L\+a):= \λ ∈ R \,|\, ∃ ∈ C( ), 0, such that\, L\[] +a +λ 0 \, in\;\. We establish some new properties of this generalised principal eigenvalue λ\p. Namely, we prove the equivalence of different definitions of the principal eigenvalue. We also study the behaviour of λ\p(L\+a) with respect to some scaling of K. For kernels K of the type, K(x,y)=J(x-y) with J a compactly supported probability density, we also establish some asymptotic properties of λ\p (L\σ,m, -1σm+a) where L\σ,m, is defined by L\σ,m,[]:=1σ2+N∫\J(x-yσ)(y)\, dy. In particular, we prove that \σ 0λ\p(L\σ,2,-1σ2+a)=λ\1(D\2(J)2N +a),where D\2(J):=∫\RNJ(z)|z|2\,dz and λ\1 denotes the Dirichlet principal eigenvalue of the elliptic operator. In addition, we obtain some convergence results for the corresponding eigenfunction \p,σ.