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Comparing the motion of dark matter and standard model particles on cosmological scales

Nastassia Grimm (), Camille Bonvin () and Isaac Tutusaus ()
Additional contact information
Nastassia Grimm: Université de Genève
Camille Bonvin: Université de Genève
Isaac Tutusaus: Campus UAB

Nature Communications, 2025, vol. 16, issue 1, 1-9

Abstract: Abstract Since dark matter particles have never been directly detected, we do not know how they move, and in particular we do not know how they fall inside gravitational potential wells. Usually it is assumed that dark matter only interacts gravitationally with itself and with particles of the standard model, and therefore that its motion is governed by Euler’s equation. In this paper, we do test this assumption directly at cosmological scales, by combining measurements of galaxy velocities with measurements of gravitational potential wells, encoded in the Weyl potential. We find that current data are consistent with Euler’s equation at redshifts z ∈ [0.3, 0.8], and we place constraints on the strength of a potential fifth force, which would alter the way dark matter particles fall. We find that a positive fifth force cannot exceed 7% of the gravitational interaction strength, while a negative fifth force is limited to 21%. The coming generation of surveys, including the Legacy Survey of Space and Time of the Vera C. Rubin Observatory and the Dark Energy Spectroscopic Instrument will drastically improve the constraints, allowing to constrain a departure from pure gravitational interaction at the level of 2%.

Date: 2025
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DOI: 10.1038/s41467-025-65100-8

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