Early-time thermalization of cosmic components? : a hint for solving cosmic tensions.
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2021
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We study an expanding two-fluid model of nonrelativistic dark matter and radiation, which are allowed to
interact during a certain time span and to establish an approximate thermal equilibrium. Such an interaction,
which generates an effective bulk viscous pressure at background level, is expected to be relevant for times
around the transition from radiation to matter dominance. We quantify the magnitude of this pressure for
dark-matter particle masses within the range 1 eV ≲ mχ ≲ 10 eV around the matter-radiation equality epoch
(i.e., redshift zeq ∼ 3400) and demonstrate that the existence of a transient bulk viscosity has consequences
which may be relevant for addressing current tensions of the standard cosmological model: (i) the additional
(negative) pressure contribution modifies the expansion rate around zeq, yielding a larger H0 value, and
(ii) large-scale structure formation is impacted by suppressing the amplitude of matter overdensity growth via
a new viscous friction-term contribution to the M ́eszáros effect. As a result, the H0 and S8 tensions of the
current standard cosmological model are both significantly alleviated.
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VELTEN, H. E. S.; COSTA, I.; WILHELM, Z. W. W. Early-time thermalization of cosmic components?: a hint for solving cosmic tensions. Physical Review D, v. 104, n. 6, artigo 063507, 2021. Disponível em: <https://journals.aps.org/prd/abstract/10.1103/PhysRevD.104.063507>. Acesso em: 06 jul. 2023.