Newton Algorithm on Constraint Manifolds and the 5-electron Thomson problem
Mathematical Physics
2018-09-05 v1 math.MP
Abstract
We give a description of numerical Newton algorithm on a constraint manifold using only the ambient coordinates (usually Euclidean coordinates) and the geometry of the constraint manifold. We apply the numerical Newton algorithm on a sphere in order to find the critical configurations of the 5-electron Thomson problem. As a result, we find a new critical configuration of a regular pentagonal type. We also make an analytical study of the critical configurations found previously and determine their nature using Morse-Bott theory. Last section contains an analytical study of critical configurations for Riesz s-energy of 5-electron on a sphere and their bifurcation behavior is pointed out.
Keywords
Cite
@article{arxiv.1601.04828,
title = {Newton Algorithm on Constraint Manifolds and the 5-electron Thomson problem},
author = {Petre Birtea and Dan Comănescu},
journal= {arXiv preprint arXiv:1601.04828},
year = {2018}
}