Solutions to some Molecular Potentials in D-Dimensions: Asymptotic   Iteration Method

D. Agboola

arXiv:0812.3776·math-ph·May 7, 2012

Solutions to some Molecular Potentials in D-Dimensions: Asymptotic Iteration Method

D. Agboola

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TL;DR

This paper applies the asymptotic iteration method to solve D-dimensional molecular vibration potentials, successfully obtaining eigenvalues and eigenfunctions that match analytic solutions, demonstrating the method's effectiveness.

Contribution

It introduces the use of the asymptotic iteration method for solving D-dimensional molecular potentials, providing a new approach with verified accuracy.

Findings

01

Eigenvalues agree with analytic solutions

02

Eigenfunctions successfully obtained using AIM

03

Demonstrates AIM's effectiveness for molecular potentials

Abstract

We give a study of some molecular vibration potentials by solving the D-dimensional Schrodinger equation using the asymptotic iteration method (AIM). The eigenvalue values obtained by the AIM are found to agree with analytic solutions. The corresponding eigenfunctions are also obtained using the AIM

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Taxonomy

TopicsQuantum Mechanics and Non-Hermitian Physics · Fractional Differential Equations Solutions · Nonlinear Waves and Solitons