On numerical methods for nonlinear singularly perturbed Schrodinger problems

Avila, AI; Meister A.; Steigemann, M

Abstract

Nonlinear Schrodinger equations (NSE) model several important problems in Quantum Physics and Morphogenesis. In case of singularly perturbed problems, the theory have made interesting progress, but numerical methods have not been able to come up with small values of the singular parameter epsilon. Moreover, the saddle-point characteristic of the associated functional is another challenge that it was first studied by Choi & McKenna, who developed the Mountain Pass Algorithm (MPA). We will focus on NSE where a uniqueness result for ground-state solutions is obtained. In this article, we develop a new method to compute positive mountain pass solutions, which improves the results for a large range of singular parameters. We extend ideas from MPA considering the singulary perturbed problems by developing a finite element approach mixed with steepest descend directions. We use a modified line search method based on Armijo's rule for improving the Newton search and Patankar trick for preserving the positiveness of the solution. To improve the range of the singular parameter, adaptive methods based on Dual Weighted Residual method are used. Our numerical experiments are performed with the deal.II library and we show that it is possible to get solutions for epsilon = 10(-6) improving the current results in four orders of magnitude. At this level, machine precision must be considered for further studies. (C) 2014 IMACS. Published by Elsevier B.V. All rights reserved.

Más información

Título según WOS: On numerical methods for nonlinear singularly perturbed Schrodinger problems
Título según SCOPUS: On numerical methods for nonlinear singularly perturbed Schrödinger problems
Título de la Revista: APPLIED NUMERICAL MATHEMATICS
Volumen: 86
Editorial: Elsevier
Fecha de publicación: 2014
Página de inicio: 22
Página final: 42
Idioma: English
DOI:

10.1016/j.apnum.2014.06.010

Notas: ISI, SCOPUS