Ground states for p-fractional Choquard-type equations with critical local nonlinearity and doubly critical nonlocality

Abstract

We consider a p-fractional Choquard-type equation \[ (-)ps u+a|u|p-2u=b(K F(u))F'(u)+g |u|pg-2u RN, \] where 0<s<1<p<pg≤ ps*, N ≥ \2ps+α,p2 s\, a,b,g∈ (0,∞), K(x)= |x|-(N-α), α∈ (0,N), and F is a doubly critical nonlinearity in the sense of the Hardy-Littlewood-Sobolev inequality. It is noteworthy that the local nonlinearity may also have critical growth. Combining Brezis-Nirenberg's method with some new ideas, we obtain the ground state solutions via the mountain pass lemma and a generalized Lions-type theorem.