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Abstract

This paper deals with bifurcation results for (weak) solutions of the Schrödinger–Poisson–Slater equation involving the Coulomb potential and critical nonlinearity, modeled by

$- Δ u + (| x |^{α - N} * | u |^{2}) u = λg (x) u + | u |^{2^{*} - 2} u in ℝ^{N},$

where $λ \in ℝ$ , $N \geq 5$ , $0 < α < N - 4$ , $2^{*} = 2 N ∕ (N - 2)$ and g is a weight function. Using the global bifurcation theorem due to Rabinowitz, the existence of unbounded components and a bifurcation point of positive (weak) solutions of the nonlinear Schrödinger–Poisson–Slater equation are proved.

Keywords

Schrödinger–Poisson–Slater equation global bifurcation critical exponents

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Bifurcation analysis of the Schrödinger-Poisson-Slater equation with critical growth

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