Arbitrary many positive solutions for a nonlinear problem involving the fractional Laplacian

Abstract

We establish the existence and multiplicity of positive solutions to the problems involving the fractional Laplacian: equation* \arraylll &(-)su=λ up+f(u),\,\,u>0 &in\,\,,\\ &u=0 &in\,\,RN,\\ array. equation* where ⊂ RN (N≥ 2) is a bounded smooth domain, s∈ (0,1), p>0, λ∈ R and (-)s stands for the fractional Laplacian. When f oscillates near the origin or at infinity, via the variational argument we prove that the problem has arbitrarily many positive solutions and the number of solutions to problem is strongly influenced by up and λ. Moreover, various properties of the solutions are also described in L∞- and Xs0()-norms.