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Main Authors: Harko, Tiberiu, Lobo, Francisco S. N.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.04790
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author Harko, Tiberiu
Lobo, Francisco S. N.
author_facet Harko, Tiberiu
Lobo, Francisco S. N.
contents We investigate the relativistic generalization of the classical Störmer problem, which describes the motion of charged particles in a purely magnetic dipole field. By incorporating special relativistic effects, the particle dynamics is governed by a strongly nonlinear system of second-order differential equations derived from the Lorentz force law. We present a rigorous and fully covariant derivation of the relativistic equations of motion, together with the associated conservation laws. An exact solution for planar motions is obtained in parametric form, providing analytical insight into the structure of the trajectories. In addition, we perform a detailed numerical analysis of the particle dynamics across both nonrelativistic and relativistic regimes, exploring a range of initial conditions and highlighting the impact of relativistic corrections. The electromagnetic radiation emitted by the accelerated charges is also examined. We compute the time dependence of the total radiated power and determine the corresponding frequency spectrum. Our results provide a comprehensive characterization of magnetic dipole--type radiation associated with Störmer-like motion. In particular, the power spectral density consistently exhibits distinct peaks, indicating the presence of preferred frequency bands in the emitted radiation.
format Preprint
id arxiv_https___arxiv_org_abs_2605_04790
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Exact solutions, trajectories and radiation patterns in the classical relativistic Störmer problem
Harko, Tiberiu
Lobo, Francisco S. N.
High Energy Astrophysical Phenomena
High Energy Physics - Theory
Mathematical Physics
We investigate the relativistic generalization of the classical Störmer problem, which describes the motion of charged particles in a purely magnetic dipole field. By incorporating special relativistic effects, the particle dynamics is governed by a strongly nonlinear system of second-order differential equations derived from the Lorentz force law. We present a rigorous and fully covariant derivation of the relativistic equations of motion, together with the associated conservation laws. An exact solution for planar motions is obtained in parametric form, providing analytical insight into the structure of the trajectories. In addition, we perform a detailed numerical analysis of the particle dynamics across both nonrelativistic and relativistic regimes, exploring a range of initial conditions and highlighting the impact of relativistic corrections. The electromagnetic radiation emitted by the accelerated charges is also examined. We compute the time dependence of the total radiated power and determine the corresponding frequency spectrum. Our results provide a comprehensive characterization of magnetic dipole--type radiation associated with Störmer-like motion. In particular, the power spectral density consistently exhibits distinct peaks, indicating the presence of preferred frequency bands in the emitted radiation.
title Exact solutions, trajectories and radiation patterns in the classical relativistic Störmer problem
topic High Energy Astrophysical Phenomena
High Energy Physics - Theory
Mathematical Physics
url https://arxiv.org/abs/2605.04790