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Autori principali: Holme, S. M., Ramadhan, H. S., Huda, I. Nurul, Putra, Leonardus B.
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2512.07364
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author Holme, S. M.
Ramadhan, H. S.
Huda, I. Nurul
Putra, Leonardus B.
author_facet Holme, S. M.
Ramadhan, H. S.
Huda, I. Nurul
Putra, Leonardus B.
contents Vortons are of interest in high-energy physics as possible dark matter candidates and as probes of Grand Unified Theories. Using the recently derived weak-field metric for a chiral vorton, we study the dynamics of test particles by analyzing both timelike and null geodesics. We identify several classes of trajectories, including bound precessing orbits, circular orbits, toroidal, and crown-type oscillations, as well as unbound scattering paths. Poincare surfaces of section reveal transitions between regular and chaotic motions that depend sensitively on the vorton tension $Gμ$ and initial conditions. We further compute the Lense-Thirring and general spin-precession frequencies for gyroscopes along Killing trajectories. The resulting precession profiles exhibit several distinct features not present in Kerr black holes but reminiscent of Kerr naked singularities, such as: divergences near the ring core, and multi-minima structures. These dynamical and precessional signatures may offer potential observational pathways for detecting vortons.
format Preprint
id arxiv_https___arxiv_org_abs_2512_07364
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Orbital dynamics and spin-precession around a circular chiral vorton
Holme, S. M.
Ramadhan, H. S.
Huda, I. Nurul
Putra, Leonardus B.
General Relativity and Quantum Cosmology
Vortons are of interest in high-energy physics as possible dark matter candidates and as probes of Grand Unified Theories. Using the recently derived weak-field metric for a chiral vorton, we study the dynamics of test particles by analyzing both timelike and null geodesics. We identify several classes of trajectories, including bound precessing orbits, circular orbits, toroidal, and crown-type oscillations, as well as unbound scattering paths. Poincare surfaces of section reveal transitions between regular and chaotic motions that depend sensitively on the vorton tension $Gμ$ and initial conditions. We further compute the Lense-Thirring and general spin-precession frequencies for gyroscopes along Killing trajectories. The resulting precession profiles exhibit several distinct features not present in Kerr black holes but reminiscent of Kerr naked singularities, such as: divergences near the ring core, and multi-minima structures. These dynamical and precessional signatures may offer potential observational pathways for detecting vortons.
title Orbital dynamics and spin-precession around a circular chiral vorton
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2512.07364