Marcus V. Bomfim, Emmanuel Frion, Nelson Pinto-Neto, Sandro D. P. Vitenti
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Primordial magnetogenesis in a bouncing model with dark energy
We investigate primordial magnetogenesis within a quantum bouncing model
driven by a scalar field, focusing on various non-minimal couplings between the
electromagnetic field and the scalar field. We test three cases: no coupling, a
Cauchy coupling with gradual decay, and a Gaussian coupling with rapid
fall-off. By exploring these scenarios, we assess a wide range of coupling
strengths across different scales. The scalar field, with an exponential
potential, behaves as pressureless matter in the asymptotic past of the
contracting phase, as stiff matter around the bounce, and as dark energy during
the expanding phase. Our findings reveal that, among the tested cases, only the
Gaussian coupling can explain the generation of primordial magnetic fields on
cosmological scales.
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