Systems with discrete singular φ-Laplacian and maximal monotone boundary conditions

Abstract

We are concerned with solvability of nonlinear systems involving a discrete singular φ-Laplacian operator of type equation* u [φ( u(n-1))] (n∈ \1, …, T\), equation* associated with a general two point boundary condition having the form equation* (φ( u(0)),-φ( u(T)))∈γ(u(0),u(T+1)), equation* where γ:RN×RN2RN×RN is a maximal monotone operator with 0RN × RN∈ γ(0RN × RN). The mapping φ is a potential homeomorphism from an open ball of radius a centered at the origin Ba ⊂ RN onto RN and stands for the usual forward difference operator. When the perturbing nonlinearity in the system has not a potential structure we obtain existence of solutions by a priori estimates. Also, when the nonlinearity is of gradient type and γ is a subdifferential, we provide a variational approach of the system in the frame of critical point theory for convex, lower semicontinuous perturbations of C1-functionals. Then we derive the existence of solutions either as minimizers or saddle points of the corresponding energy functional.