The fast and accurate computation of eigenvalues and eigenfunctions of time-independent one-dimensional Schrödinger equations

Name: The fast and accurate computation of eigenvalues and eigenfunctions of time-independent one-dimensional Schrödinger equations
Creator: Toon Baeyens
Published: 2020-09-04T16:11:11.296Z
Keywords: Eigenvalues, Eigenfunctions Function, Schrödinger Equation, Computational Physics

Baeyens, Toon; Van Daele, Marnix

doi:10.17632/4yn7pp92y4.1

The fast and accurate computation of eigenvalues and eigenfunctions of time-independent one-dimensional Schrödinger equations

Published: 4 September 2020| Version 1 | DOI: 10.17632/4yn7pp92y4.1

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In this paper, we present the basic routines of the C++-program Matslise 3.0, an updated but yet restricted version of the matlab package Matslise 2.0. Matslise 3.0 currently allows the accurate, but in comparison to Matslise 2.0, faster computation of eigenvalues and eigenfunctions of one dimensional time-independent Schrödinger problems. The numerical examples show that speed up factors up to 20 (for the eigenvalues) and 200 (for the eigenfunctions) are obtained. These highly optimized routines will enable us, in the near future, to extend Matslise 3.0 to solve time-independent 2D and 3D as well as time-dependent 1D problems.

The fast and accurate computation of eigenvalues and eigenfunctions of time-independent one-dimensional Schrödinger equations

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