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Paper detail

Gravitational Wave luminosity distance in viscous cosmological models

We study the so-called Gravitational Wave luminosity distance-redshift relation $d_L^{\,GW}(z)$ during cosmological eras driven by non-perfect fluids. In particular, we show that the presence of a shear viscosity in the energy momentum tensor turns out to be the most relevant effect. Within this scenario, a constant shear viscosity imprints the gravitational wave propagation through a friction term $δ(z)$ with a uniquely given redshift dependence. This peculiar evolution predicts a specific shape for the ratio $d_{L}^{GW}/d_{L}^{EM}$ which tends to a constant value when the sources are at $z\gtrsim 1$, whereas scales linearly with the shear viscosity at lower redshifts, regardless of the value of $Ω_{m0}$. According to our final discussion, the predicted redshift dependence $δ(z)$ provided by a shear viscosity could be tested by upcoming surveys of multi-messenger sources against analogous scenarios provided by some widely studied theories of modified gravity.

preprint2022arXivOpen access
Giuseppe FanizzaEliseo PavoneLuigi Tedesco
astro-ph.COgr-qchep-th
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Giuseppe FanizzaEliseo PavoneLuigi Tedesco

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