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On the Stability of Non Force-Free Magnetic Equilibria in Stars

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abstract

The existence of stable magnetic configurations in white dwarfs, neutron stars and various non-convective stellar {regions} is now well recognized. It has recently been shown numerically that various families of equilibria, including axisymmetric mixed poloidal-toroidal configurations, are stable. Here we test the stability of an analytically-derived non force-free magnetic equilibrium, using three-dimensional magnetohydrodynamic simulations: the mixed configuration is compared with the dynamical evolution of its purely poloidal and purely toroidal components, both known to be unstable. The mixed equilibrium shows no sign of instability under white noise perturbations. {This configuration therefore provides a good description of magnetic equilibrium topology inside non-convective stellar objects and will be useful to initialize magneto-rotational transport in stellar evolution codes.

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astro-ph.SR 1

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2026 1

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UNVERDICTED 1

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representative citing papers

Non-linear Dynamical Stability of Magnetic Polytropes

astro-ph.SR · 2026-05-30 · unverdicted · novelty 5.0

A mean-field magnetic polytrope model shows radiation pressure can unbind an n=3 polytrope when the central overpressure exceeds roughly 0.15 times a mass-dependent factor under small radial perturbations.

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  • Non-linear Dynamical Stability of Magnetic Polytropes astro-ph.SR · 2026-05-30 · unverdicted · none · ref 25 · internal anchor

    A mean-field magnetic polytrope model shows radiation pressure can unbind an n=3 polytrope when the central overpressure exceeds roughly 0.15 times a mass-dependent factor under small radial perturbations.