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Rescuing constraints on modified gravity using gravitational redshift in large-scale structure

Sveva Castello, Nastassia Grimm, Camille Bonvin

2022Physical review. D/Physical review. D.19 citationsDOI

Abstract

The distribution of galaxies provides an ideal laboratory to test for deviations from General Relativity. In particular, redshift-space distortions are commonly used to constrain modifications to the Poisson equation, which governs the strength of dark matter clustering. Here, we show that these constraints rely on the validity of the weak equivalence principle, which has never been tested for the dark matter component. Relaxing this restrictive assumption leads to modifications in the growth of structure that are fully degenerate with modifications induced by the Poisson equation. This in turns strongly degrades the constraining power of redshift-space distortions. Such degeneracies can, however, be broken, and tight constraints on modified gravity can be recovered by measuring gravitational redshift from the galaxy distribution, an effect that will be detectable by the coming generation of large-scale structure surveys.

Topics & Concepts

PhysicsRedshiftDark matterEquivalence principle (geometric)GravitationRedshift-space distortionsDark energyGeneral relativityStructure formationRedshift surveyGalaxyMass distributionAstrophysicsClassical mechanicsStatistical physicsCosmologyCosmology and Gravitation TheoriesGalaxies: Formation, Evolution, PhenomenaPulsars and Gravitational Waves Research
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