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Evolution of coupled scalar perturbations through smooth reheating. I. Dissipative regime

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arxiv 2407.17074 v2 pith:CJWMA7EH submitted 2024-07-24 hep-ph astro-ph.CO

Evolution of coupled scalar perturbations through smooth reheating. I. Dissipative regime

classification hep-ph astro-ph.CO
keywords perturbationscoupledevolutionfieldinflatonoscillationsphaseplasma
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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If the inflaton is a heavy scalar field, it may equilibrate slower than some other degrees of freedom, e.g. non-Abelian gauge bosons. In this case, perturbations in the inflaton field and in a thermal plasma coexist from a given moment onwards. We derive a gauge-invariant set of three coupled equations governing the time evolution of such a system. Despite singular coefficients, a reliable numerical solution can be obtained for a long time period, starting from phase oscillations inside the Hubble horizon, and extending until acoustic oscillations in a radiation-dominated universe. Benchmarks are illustrated from a "weak regime", where perturbations have a quantum-mechanical origin but get dissipated by interactions with the plasma. Among applications of our formalism could be inhomogeneity-induced nucleations in post-inflationary phase transitions, and the production of scalar-induced gravitational waves.

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Cited by 2 Pith papers

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  2. From inflation to hot big bang -- a tutorial on cosmological perturbations

    hep-ph 2026-07 accept novelty 1.0

    A tutorial deriving cosmological perturbation equations from inflation through reheating, with explicit gauge-invariant computations and Python scripts.