The finite difference scheme for nonlinear Schrodinger equations on unbounded domain by artificial boundary conditions

In this paper, we propose and analyze a finite difference method for the nonlinear Schrodinger equations on unbounded domain by using artificial boundary conditions. Two artificial boundary conditions are introduced to restrict the original Schrodinger equations on an unbounded domain into an initial-boundary value problem with a bounded domain. Then, a finite difference scheme for the reduced problem is proposed. The important feature of the proposed scheme is that an extrapolation operator is introduced to treat the nonlinear term while the scheme keeps unconditionally stable and does not introduce any oscillations at the artificial boundaries. The proposed scheme with the discrete artificial boundary conditions is rigorously analyzed to yield the unconditional stability and the scheme is also proved to be convergent. Numerical examples are given to show the performance of our scheme. (C) 2018 IMACS. Published by Elsevier B.V. All rights reserved.