Existence of ground state solutions for a Choquard double phase problem

Abstract

In this paper we study quasilinear elliptic equations driven by the double phase operator involving a Choquard term of the form align* -Lp,qa(u) + |u|p-2u+ a(x) |u|q-2u = ( ∫RN F(y, u)|x-y|μ\,d y)f(x,u) RN, align* where Lp,qa is the double phase operator given by align* Lp,qa(u):= div(|∇ u|p-2∇ u + a(x) |∇ u|q-2∇ u ), u∈ W1,H(RN), align* 0<μ<N, 1<p<N, p<q<p+ α pN, 0 ≤ a(·)∈ C0,α(RN) with α ∈ (0,1] and fN×R is a continuous function that satisfies a subcritical growth. Based on the Hardy-Littlewood-Sobolev inequality, the Nehari manifold and variational tools, we prove the existence of ground state solutions of such problems under different assumptions on the data.