On the coordinate system-dependence of the accuracy of symplectic numerical methods

Symplectic numerical methods have become a widely-used choice for the accurate simulation of Hamiltonian systems in various fields, including celestial mechanics, molecular dynamics and robotics. Even though their characteristics are well-understood mathematically, relatively little attention has be...

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Vydáno v:Journal of numerical analysis and approximation theory
Hlavní autoři: Takács, Donát M., Fülöp, Tamás
Médium: Journal Article
Jazyk:angličtina
Vydáno: Publishing House of the Romanian Academy 11.09.2025
Témata:
canonical transformation
coordinate transformation
Hamiltonian system
processing
Symplectic numerical method
ISSN:2457-6794, 2501-059X
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Shrnutí:Symplectic numerical methods have become a widely-used choice for the accurate simulation of Hamiltonian systems in various fields, including celestial mechanics, molecular dynamics and robotics. Even though their characteristics are well-understood mathematically, relatively little attention has been paid in general to the practical aspect of how the choice of coordinates affects the accuracy of the numerical results, even though the consequences can be computationally significant.The present article aims to fill this gap by giving a systematic overview of how coordinate transformations can influence the results of simulations performed using symplectic methods. We give a derivation for the non-invariance of the modified Hamiltonian of symplectic methods under coordinate transformations, as well as a sufficient condition for the non-preservation of a first integral corresponding to a cyclic coordinate for the symplectic Euler method. We also consider the possibility of finding order-compensating coordinate transformations that improve the order of accuracy of a numerical method. Various numerical examples are presented throughout.
ISSN:2457-6794
2501-059X
DOI:10.33993/jnaat542-1577