Weibel Instability-Driven Seed Magnetic Fields during Reionization
Abstract
Cosmological reionization was a highly out-of-equilibrium event that affected every parcel of the intergalactic medium, making it a candidate for astrophysical generation of intergalactic magnetic fields. During reionization, the first stars and galaxies ionized the surrounding, largely neutral, medium in ever-expanding envelopes. Photoionization from sources on one side of the front, combined with the quadrupolar angular dependence of the photoionization cross section, leads to an anisotropic electron velocity distribution. We investigate instabilities in these reionization fronts as a mechanism to generate seed magnetic fields. The Weibel instability has the potential to create a magnetic field from these anisotropies. We calculate the magnitude of the isotropic and anisotropic distribution within a simulated reionization front. We find that the fractional anisotropy can grow to toward the middle of the ionization front. We show that the linear growth timescale of the Weibel instability is fast compared to the crossing time of the ionization front ( seconds). We briefly speculate on the possible non-linear evolution of the instability and the implications for cosmological magnetogenesis.
Cite
@article{arxiv.2603.03608,
title = {Weibel Instability-Driven Seed Magnetic Fields during Reionization},
author = {Jorie McDermott and Manami Roy and Christopher M. Hirata},
journal= {arXiv preprint arXiv:2603.03608},
year = {2026}
}
Comments
To be submitted to JCAP. 27 pages, 8 figures