Fractional Schr\"odinger-Poisson-Slater equations in Coulomb-Sobolev spaces
Abstract
We prove existence and multiplicity results for the fractional Schroedinger--Poisson--Slater equation (-)s u + (Iα * u2)u = f(|x|,u) in RN, where 0<s<1 and α ∈ (1,N). We seek solutions in a fractional Coulomb-Sobolev space and employ new tools in critical point theory that link the behavior of f at zero and at infinity to the scaling properties of the left-hand side. For several regimes of f, we establish compactness for an associated action functional and obtain multiple solutions as critical points, with the number governed by the interaction of f with a sequence of eigenvalues \λk\ defined via the Z2 cohomological index of Fadell and Rabinowitz (rather than the classical Krasnosel'skii genus). In this fractional setting we also prove new regularity results and necessary conditions for the existence of solutions.
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