☆ 4.6 Article

Testing the equivalence principle on cosmological scales

JOURNAL OF COSMOLOGY AND ASTROPARTICLE PHYSICS (2018)

Journal

JOURNAL OF COSMOLOGY AND ASTROPARTICLE PHYSICS

Volume -, Issue 5, Pages -

Publisher

IOP PUBLISHING LTD

DOI: 10.1088/1475-7516/2018/05/061

Keywords

modified gravity; redshift surveys

Categories

Astronomy & Astrophysics Physics, Particles & Fields

Funding

Swiss National Science Foundation

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Abstract

The equivalence principle, that is one of the main pillars of general relativity, is very well tested in the Solar system; however, its validity is more uncertain on cosmological scales, or when dark matter is concerned. This article shows that relativistic effects in the large-scale structure can be used to directly test whether dark matter satisfies Euler's equation, i.e. whether its free fall is characterised by geodesic motion, just like baryons and light. After having proposed a general parametrisation for deviations from Euler's equation, we perform Fisher-matrix forecasts for future surveys like DESI and the SKA, and show that such deviations can be constrained with a precision of order 10%. Deviations from Euler's equation cannot be tested directly with standard methods like redshift-space distortions and gravitational lensing, since these observables are not sensitive to the time component of the metric. Our analysis shows therefore that relativistic effects bring new and complementary constraints to alternative theories of gravity.

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Combining gravitational lensing and gravitational redshift to measure the anisotropic stress with future galaxy surveys

Isaac Tutusaus, Daniel Sobral Blanco, Camille Bonvin

Summary: Galaxy surveys are a powerful tool to test the theory of gravity at cosmological scales. In this study, a new approach using the reparametrization of gravitational lensing observable and the relativistic dipole of the correlation function of galaxies is proposed to directly measure the anisotropic stress. The future LSST and SKA projects are considered, and model-independent constraints on the anisotropic stress at the level of about 20% can be achieved.

PHYSICAL REVIEW D (2023)

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Article Astronomy & Astrophysics

Model-independent test for gravity using intensity mapping and galaxy clustering

Muntazir M. Abidi, Camille Bonvin, Mona Jalilvand, Martin Kunz

Summary: We propose a new method to measure the EG statistic solely based on clustering. This method can test the consistency of General Relativity by comparing the geometry of the Universe through gravitational lensing with the motion of galaxies. Instead of combining galaxy clustering with gravitational lensing, our method uses clustering information from intensity mapping and galaxy clustering to construct an estimator for EG. With this estimator, we can effectively suppress contaminations and robustly test the validity of General Relativity. We forecast that upcoming surveys like HIRAX and Euclid can achieve a precision of up to 7% (3.9% for SKA2) in measuring EG.

PHYSICAL REVIEW D (2023)

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Article Astronomy & Astrophysics

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

Sveva Castello, Nastassia Grimm, Camille Bonvin

Summary: The distribution of galaxies provides a platform to test deviations from General Relativity. By measuring the gravitational redshift from galaxy distribution, tight constraints on modified gravity can be recovered.

PHYSICAL REVIEW D (2022)

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Article Astronomy & Astrophysics

Scalar ?erenkov radiation from high-energy cosmic rays

Charles Dalang, Pierre Fleury, Lucas Lombriser

Summary: This passage discusses the coupling of scalar fields to the Ricci scalar and its impact on high-energy cosmic rays, as well as the relationship between energy loss and the UV cutoff frequency of effective field theory in gravity. It also explores the potential for divergence or significant increase in energy loss to scalar waves under different theoretical perspectives.

PHYSICAL REVIEW D (2022)

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