Destructive relativity

Przybylska, Maria; Szumiński, Wojciech; Maciejewski, Andrzej J.

doi:10.1063/5.0140633

Chaos: An Interdisciplinary Journal of Nonlinear Science

2023

DOI: 10.1063/5.0140633

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Destructive relativity

Maria Przybylska

Wojciech Szumiński

Andrzej J. Maciejewski

Abstract: The description of dynamics for high-energy particles requires an application of the special relativity theory framework, and analysis of properties of the corresponding equations of motion is very important. Here, we analyze Hamilton equations of motion in the limit of weak external field when potential satisfies the condition 2V(q)≪mc2. We formulate very strong necessary integrability conditions for the case when the potential is a homogeneous function of coordinates of integer non-zero degrees. If Hamilton … Show more

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2024

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Cited by 2 publications

References 55 publications

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Chaos and integrability of relativistic homogeneous potentials in curved space

Szumiński,

Przybylska,

Maciejewski

2024

Nonlinear Dyn

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Relativistic Hamiltonian systems of n degrees of freedom in static curved spaces are considered. The source of space-time curvature is a scalar potential $$V(\varvec{q})$$ V ( q ) . In the limit of weak potential $$2V(\varvec{q})/mc^2\ll 1$$ 2 V ( q ) / m c 2 ≪ 1 , and small momentum $$|\varvec{p} |/ mc\ll 1$$ | p | / m c ≪ 1 , these systems transform into the corresponding non-relativistic flat Hamiltonian’s with the standard sum of kinetic energy plus potential $$V(\varvec{q})$$ V ( q ) . We compare the dynamics of the classical and the corresponding relativistic curved counterparts on examples of important physical models: the Hénon–Heiles system, the Armbruster–Guckenheimer–Kim galactic system and swinging Atwood’s machine. Our main results are formulated for relativistic Hamiltonian systems with homogeneous potentials of non-zero integer degree k of homogeneity. First, we show that the integrability of a non-relativistic flat Hamiltonian with a homogeneous potential is a necessary condition for the integrability of its relativistic counterpart in curved space-time with the same homogeneous potential or with a non-homogeneous potential that the lowest homogenous part coincides with this homogeneous potential. Moreover, we formulate necessary integrability conditions for relativistic Hamiltonian systems with homogeneous potentials in curved space-time. These conditions were obtained from analysis of the differential Galois group of variational equations along a particular straight-line solution defined by a non-zero vector $$\varvec{d}$$ d satisfying $$V'(\varvec{d})=\gamma \varvec{d}$$ V ′ ( d ) = γ d for a certain $$\gamma \ne 0$$ γ ≠ 0 . They are very strong: if the relativistic system is integrable in the Liouville sense, then either $$k=\pm 2$$ k = ± 2 , or all non-trivial eigenvalues of the re-scaled Hessian $$\gamma ^{-1}V''(\varvec{d})$$ γ - 1 V ′ ′ ( d ) are either 0, or 1. Certain integrable relativistic systems are presented.

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Chaos and integrability of relativistic homogeneous potentials in curved space

Szumiński,

Przybylska,

Maciejewski

2024

Nonlinear Dyn

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show abstract

Data-driven reconstruction of chaotic dynamical equations: The Hénon–Heiles type system

Escobar-Ruiz,

Jiménez-Lara,

Juárez-Flores

et al. 2024

Chaos, Solitons & Fractals

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Destructive relativity

Cited by 2 publications

References 55 publications

Chaos and integrability of relativistic homogeneous potentials in curved space

Chaos and integrability of relativistic homogeneous potentials in curved space

Data-driven reconstruction of chaotic dynamical equations: The Hénon–Heiles type system

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