Closed Newton-Cotes Trigonometrically-Fitted Formulae for Numerical Integration of the Schrödinger Equation

Soft Computing Letters Pub Date : 2007-03-01 DOI:10.1163/157404007779994269

T. Simos

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引用次数: 60

Abstract

In this paper we investigate the connection between closed Newton-Cotes formulae, trigonometrically-fitted differential methods, symplectic integrators and efficient solution of the Schrodinger equation. Several one step symplectic integrators have been produced based on symplectic geometry, as one can see from the literature. However, the study of multistep symplectic integrators is very poor. Zhu et. al. has studied the symplectic integrators and the well known open Newton-Cotes differential methods and as a result has presented the open Newton-Cotes differential methods as multilayer symplectic integrators. The construction of multistep symplectic integrators based on the open Newton-Cotes integration methods was investigated by Chiou and Wu. In this paper we investigate the closed Newton-Cotes formulae and we write them as symplectic multilayer structures. We also develop trigonometrically-fitted symplectic methods which are based on the closed Newton-Cotes formulae. We apply the symplectic schemes to the well known one-dimensional Schrodinger equation in order to investigate the efficiency of the proposed method to these type of problems.

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Schrödinger方程数值积分的封闭牛顿-柯特三角拟合公式

本文研究了闭牛顿-柯特公式、三角拟合微分方法、辛积分器与薛定谔方程有效解之间的联系。从文献中可以看出，基于辛几何已经产生了几个一步辛积分器。然而，对多步辛积分器的研究却很少。Zhu等人研究了辛积分器和著名的开放牛顿-柯特微分方法，并将开放牛顿-柯特微分方法作为多层辛积分器提出。Chiou和Wu研究了基于开放Newton-Cotes积分法的多步辛积分器的构造。本文研究了闭牛顿-柯特公式，并将其写成辛多层结构。我们还开发了基于封闭牛顿-柯茨公式的三角拟合辛方法。我们将辛格式应用于众所周知的一维薛定谔方程，以研究所提出的方法在这类问题上的效率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Soft Computing Letters

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