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Main Authors: Soliman, Nadine H., Hopkins, Philip F., Squire, Jonathan
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.21461
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author Soliman, Nadine H.
Hopkins, Philip F.
Squire, Jonathan
author_facet Soliman, Nadine H.
Hopkins, Philip F.
Squire, Jonathan
contents We propose a novel dust battery mechanism for generating seed magnetic fields in the early universe, in which charged dust grains are radiatively accelerated, inducing strong electric currents that subsequently generate magnetic fields. Our analysis demonstrates that this process is effective even at very low metallicities (approximately $ \sim 10^{-5} Z_\odot$), and capable of producing seed fields with significant amplitudes of $B \sim \rm μG$ around luminous sources over timescales of years to Myr and across spatial scales ranging from au to kpc. Crucially, we find that this mechanism is generically $\sim10^8$ times more effective than the radiatively-driven electron battery or Biermann battery in relatively cool gas ($\ll 10^{5}\,$K), including both neutral and ionized gas. Furthermore, our results suggest that, to first order, dissipation effects do not appear to significantly impede this process, and that it can feasibly generate coherent seed fields on macroscopically large ISM scales (much larger than turbulent dissipation scales or electron mean-free-paths in the ISM). These seed fields could then be amplified by subsequent dynamo actions to the observed magnetic fields in galaxies. Additionally, we propose a sub-grid model for integration into cosmological simulations, and the required electric-field expressions for magnetohydrodynamic-particle-in-a-cell (MHD-PIC) simulations that explicitly model dust dynamics. Finally, we explore the broad applicability of this mechanism across different scales and conditions, emphasizing its robustness compared to other known battery mechanisms.
format Preprint
id arxiv_https___arxiv_org_abs_2410_21461
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Dust Battery: A Novel Mechanism for Seed Magnetic Field Generation in the Early Universe
Soliman, Nadine H.
Hopkins, Philip F.
Squire, Jonathan
Astrophysics of Galaxies
Cosmology and Nongalactic Astrophysics
We propose a novel dust battery mechanism for generating seed magnetic fields in the early universe, in which charged dust grains are radiatively accelerated, inducing strong electric currents that subsequently generate magnetic fields. Our analysis demonstrates that this process is effective even at very low metallicities (approximately $ \sim 10^{-5} Z_\odot$), and capable of producing seed fields with significant amplitudes of $B \sim \rm μG$ around luminous sources over timescales of years to Myr and across spatial scales ranging from au to kpc. Crucially, we find that this mechanism is generically $\sim10^8$ times more effective than the radiatively-driven electron battery or Biermann battery in relatively cool gas ($\ll 10^{5}\,$K), including both neutral and ionized gas. Furthermore, our results suggest that, to first order, dissipation effects do not appear to significantly impede this process, and that it can feasibly generate coherent seed fields on macroscopically large ISM scales (much larger than turbulent dissipation scales or electron mean-free-paths in the ISM). These seed fields could then be amplified by subsequent dynamo actions to the observed magnetic fields in galaxies. Additionally, we propose a sub-grid model for integration into cosmological simulations, and the required electric-field expressions for magnetohydrodynamic-particle-in-a-cell (MHD-PIC) simulations that explicitly model dust dynamics. Finally, we explore the broad applicability of this mechanism across different scales and conditions, emphasizing its robustness compared to other known battery mechanisms.
title Dust Battery: A Novel Mechanism for Seed Magnetic Field Generation in the Early Universe
topic Astrophysics of Galaxies
Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2410.21461