Numerov and phase-integral methods for charmonium
Abstract
This paper applies the Numerov and phase-integral methods to the stationary Schrodinger equation that studies bound states of charm anti-charm quarks. The former is a numerical method well suited for a matrix form of second-order ordinary di erential equations, and can be applied whenever the stationary states admit a Taylor-series expansion. The latter is an analytic method that provides, in principle, even exact solutions of the stationary Schrodinger equation, and well suited for applying matched asymptotic expansions and higher order quantization conditions. The Numerov method is found to be always in agreement with the early results of Eichten et al., whereas an original evaluation of the phase-integral quantization condition clarifies under which conditions the previous results in the literature on higher-order terms can be obtained.
Keywords
Cite
@article{arxiv.2204.01720,
title = {Numerov and phase-integral methods for charmonium},
author = {Giampiero Esposito and Pietro Santorelli},
journal= {arXiv preprint arXiv:2204.01720},
year = {2023}
}
Comments
23 pages, 2 tables and 2 figures. In the final version, the presentation and the numerical analysis have been improved, and a misprint in Eq. (2.3) has been amended