ALP dark matter coupled to EM via Chern-Simons produces secondary photons from fluctuations in a pre-existing cosmological magnetic field spectrum, with Lyman-Werner flux consistent with CMB and X-ray limits.
Secondary Production of Photons from ALP Dark Matter interacting with a Cosmological Magnetic Field
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abstract
Under the assumption that dark matter is a coherently oscillating pseudoscalar field coupled to electromagnetism by the usual Chern-Simons term, we study the production of secondary photons from dark matter fluctuations coupled to a pre-existing magnetic field, taking into account the spectral distribution of the magnetic field. Specifically, we apply the formalism to the case of a large-scale magnetic field generated previously via a parametric resonance instability due to the same Chern-Simons coupling. However, our analysis is applicable to any spectrum of cosmological scale magnetic field fluctuations present at the time of recombination. We show that obtaining a sufficiently large flux of photons in the Lyman-Werner frequency range is consistent with constraints from CMB and X-ray observations.
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astro-ph.CO 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
citing papers explorer
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Secondary Production of Photons from ALP Dark Matter interacting with a Cosmological Magnetic Field
ALP dark matter coupled to EM via Chern-Simons produces secondary photons from fluctuations in a pre-existing cosmological magnetic field spectrum, with Lyman-Werner flux consistent with CMB and X-ray limits.