It has recently been argued that the Hubble tension may call for a combination of both pre- and post-recombination new physics. Motivated by these considerations, we provide one of the first concrete case studies aimed at constructing such a viable combination. We consider models that have individually worked best on either end of recombination so far: a spatially uniform time-varying electron mass leading to earlier recombination (also adding non-zero spatial curvature), and a sign-switching cosmological constant inducing an AdS-to-dS transition within the ΛsCDM model. When confronted against Cosmic Microwave Background (CMB), Baryon Acoustic Oscillations, and Type Ia Supernovae data, we show that no combination of these ingredients can successfully solve the Hubble tension. We find that the matter density parameter Ωm plays a critical role, driving important physical scales in opposite directions: the AdS-to-dS transition requires a larger Ωm to maintain the CMB acoustic scale fixed, whereas the varying electron mass requires a smaller Ωm to maintain the redshift of matter-radiation equality fixed. Despite the overall failure, we use our results to draw general model-building lessons, highlighting the importance of assessing tension-solving directions in the parameter space of new physics parameters and how these correlate with shifts in other standard parameters, while underscoring the crucial role of Ωm in this sense.

Combining pre- and post-recombination new physics to address cosmological tensions: Case study with varying electron mass and sign-switching cosmological constant / Toda, Yo; Giarè, William; Özülker, Emre; Di Valentino, Eleonora; Vagnozzi, Sunny. - In: PHYSICS OF THE DARK UNIVERSE. - ISSN 2212-6864. - 2024:46(2024), p. 101676. [10.1016/j.dark.2024.101676]

Combining pre- and post-recombination new physics to address cosmological tensions: Case study with varying electron mass and sign-switching cosmological constant

Vagnozzi, Sunny
Ultimo
2024-01-01

Abstract

It has recently been argued that the Hubble tension may call for a combination of both pre- and post-recombination new physics. Motivated by these considerations, we provide one of the first concrete case studies aimed at constructing such a viable combination. We consider models that have individually worked best on either end of recombination so far: a spatially uniform time-varying electron mass leading to earlier recombination (also adding non-zero spatial curvature), and a sign-switching cosmological constant inducing an AdS-to-dS transition within the ΛsCDM model. When confronted against Cosmic Microwave Background (CMB), Baryon Acoustic Oscillations, and Type Ia Supernovae data, we show that no combination of these ingredients can successfully solve the Hubble tension. We find that the matter density parameter Ωm plays a critical role, driving important physical scales in opposite directions: the AdS-to-dS transition requires a larger Ωm to maintain the CMB acoustic scale fixed, whereas the varying electron mass requires a smaller Ωm to maintain the redshift of matter-radiation equality fixed. Despite the overall failure, we use our results to draw general model-building lessons, highlighting the importance of assessing tension-solving directions in the parameter space of new physics parameters and how these correlate with shifts in other standard parameters, while underscoring the crucial role of Ωm in this sense.
2024
46
Toda, Yo; Giarè, William; Özülker, Emre; Di Valentino, Eleonora; Vagnozzi, Sunny
Combining pre- and post-recombination new physics to address cosmological tensions: Case study with varying electron mass and sign-switching cosmological constant / Toda, Yo; Giarè, William; Özülker, Emre; Di Valentino, Eleonora; Vagnozzi, Sunny. - In: PHYSICS OF THE DARK UNIVERSE. - ISSN 2212-6864. - 2024:46(2024), p. 101676. [10.1016/j.dark.2024.101676]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/431310
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