Coupled elliptic systems involving the square root of the Laplacian and Trudinger-Moser critical growth

Abstract

In this paper we prove the existence of a nonnegative ground state solution to the following class of coupled systems involving Schr\"odinger equations with square root of the Laplacian \ arraylr (-)1/2u+V1(x)u=f1(u)+λ(x)v, & x∈R, (-)1/2v+V2(x)v=f2(v)+λ(x)u, & x∈R, array . where the nonlinearities f1(s) and f2(s) have exponential critical growth of the Trudinger-Moser type, the potentials V1(x) and V2(x) are nonnegative and periodic. Moreover, we assume that there exists δ∈ (0,1) such that λ(x)≤δV1(x)V2(x). We are also concerned with the existence of ground states when the potentials are asymptotically periodic. Our approach is variational and based on minimization technique over the Nehari manifold.