Primordial magnetogenesis in a bouncing model with dark energy

arXiv - PHYS - General Relativity and Quantum Cosmology Pub Date : 2024-09-09 DOI:arxiv-2409.05329
Marcus V. Bomfim, Emmanuel Frion, Nelson Pinto-Neto, Sandro D. P. Vitenti
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Abstract

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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暗能量弹跳模型中的原始磁生成
我们研究了由标量场驱动的量子弹跳模型中的原始成磁现象,重点是电磁场和标量场之间的各种非最小耦合。我们测试了三种情况:无耦合、逐渐衰减的考奇耦合和快速衰减的高斯耦合。通过探索这些情况,我们评估了不同尺度上的各种耦合强度。指数势能的标量场在收缩阶段的渐近过去表现为无压物质,在反弹阶段表现为僵硬物质,在膨胀阶段表现为暗能量。我们的研究结果表明,在所测试的情况中,只有高斯耦合能够解释宇宙尺度上原始磁场的产生。
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arXiv - PHYS - General Relativity and Quantum Cosmology
arXiv - PHYS - General Relativity and Quantum Cosmology
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