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Measuring the distortion of time with relativistic effects in large-scale structure

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arxiv 2205.02567 v2 pith:6XQVQ52J submitted 2022-05-05 astro-ph.CO gr-qc

Measuring the distortion of time with relativistic effects in large-scale structure

classification astro-ph.CO gr-qc
keywords mattertimedistortiondistortionstestdarkdistortedgravity
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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To test the theory of gravity one needs to test, on one hand, how space and time are distorted by matter and, on the other hand, how matter moves in a distorted space-time. Current observations provide tight constraints on the motion of matter, through the so-called redshift-space distortions, but they only provide a measurement of the sum of the spatial and temporal distortions, via gravitational lensing. In this Letter, we develop a method to measure the time distortion on its own. We show that the coming generation of galaxy surveys, like the Square Kilometer Array, will allow us to measure the distortion of time with an accuracy of 10-30%. Such a measurement will be essential to test deviations from the $\Lambda$CDM model in a fully model-independent way. In particular, it can be used to compare the spatial and temporal distortions of space-time and to unambiguously distinguish between modifications of gravity and dark fifth forces acting on dark matter.

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    astro-ph.CO 2026-07 accept novelty 6.0

    Neglecting linear GR effects biases f_NL at 1–3σ for Euclid/SPHEREx in SFB forecasts; multi-tracer improves Doppler detection and weakly breaks b_ϕ f_NL degeneracy.