Colloquium: The Cosmic Dipole Anomaly

TL;DR

The paper discusses a significant anomaly in the cosmic dipole measurements that challenges the foundational assumptions of standard cosmology, suggesting potential new physics or the need to revise current models.

Contribution

It reviews recent observational findings of the cosmic dipole anomaly and analyzes their implications for the validity of the FLRW cosmological model and the Cosmological Principle.

Findings

Matter dipole larger than CMB dipole by over 5σ

Discrepancy suggests different rest frames for matter and radiation

Challenges the validity of the standard ΛCDM model

Abstract

The Cosmological Principle, which states that the Universe is homogeneous and isotropic (when averaged on large scales), is the foundational assumption of Friedmann-Lemaitre-Robertson-Walker (FLRW) cosmologies such as the current standard Lambda-Cold-Dark-Matter ({\Lambda}CDM) model. This simplification yields an exact solution to the Einstein field equations that relates space and time through a single time-dependent scale factor, which defines cosmological observables such as the Hubble parameter and the cosmological redshift. The validity of the Cosmological Principle, which underpins modern cosmology, can now be rigorously tested with the advent of large, nearly all-sky catalogs of radio galaxies and quasars. Surprisingly, the dipole anisotropy in the large-scale distribution of matter is found to be inconsistent with the expectation from kinematic aberration and Doppler boosting effects in a perturbed FLRW universe, which is the standard interpretation of the observed dipole in the cosmic microwave background (CMB). Although the matter dipole agrees in direction with that of the CMB dipole, it is anomalously larger, demonstrating that either the rest frames in which matter and radiation appear isotropic are not the same, or that there is an unexpected intrinsic anisotropy in at least one of them. This discrepancy now exceeds 5{\sigma} in significance. We review these recent findings, as well as the potential biases, systematic issues, and alternate interpretations that have been suggested to help alleviate the tension. We conclude that the cosmic dipole anomaly poses a serious challenge to FLRW cosmology, and the standard {\Lambda}CDM model in particular, as an adequate description of our Universe.