Positive harmonically bounded solutions for semi-linear equations

Abstract

For open sets U in some space X, we are interested in positive solutions to semi-linear equations Lu=(·,u)μ on U. Here L may be an elliptic or parabolic operator of second order (generator of a diffusion process) or an integro-differential operator (generator of a jump process), μ is a positive measure on U and is an arbitrary measurable real function on U× R+ such that the functions t (x,t), x∈ U, are continuous, increasing and vanish at t=0. More precisely, given a measurable function h 0 on X which is L-harmonic on U, that is, continuous real on U with Lh=0 on U, we give necessary and sufficient conditions for the existence of positive solutions u such that u=h on X U and u has the same ``boundary behavior'' as h on U (Problem 1) or, alternatively, u h on U, but u 0 on U (Problem 2). We show that these problems are equivalent to problems of the existence of positive solutions to certain integral equations u+K(·,u)=g on U, K being a potential kernel. We solve them in the general setting of balayage spaces (X,W) which, in probabilistic terms, corresponds to the setting of transient Hunt processes with strong Feller resolvent.

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