A Bayesian Perspective on Evidence for Evolving Dark Energy

Abstract

The DESI Collaboration reports a significant preference for a dynamic dark energy model (w0waCDM) over the cosmological constant () when their data are combined with other frontier cosmological probes. We present a direct Bayesian model comparison using nested sampling to compute the Bayesian evidence, revealing a contrasting conclusion: for the key combination of the DESI DR2 BAO and the Planck CMB data, we find the Bayesian evidence modestly favours (log-Bayes factor B = -0.570.26), in contrast to the collaboration's 3.1σ frequentist significance in favoring w0waCDM. Extending this analysis to also combine with the DES-SN5YR supernova catalogue, our Bayesian analysis reaches a significance of 3.070.10\,σ in favour of w0waCDM. By performing a comprehensive tension analysis, employing five complementary metrics, we pinpoint the origin: a significant (2.95 0.04\,σ), low-dimensional tension between DESI DR2 and DES-SN5YR that is present only within the framework. The w0waCDM model is preferred precisely because its additional parameters act to resolve this specific dataset conflict. Replacing DES-SN5YR with the recalibrated DES-Dovekie dataset, this tension is reduced and the three-probe Bayesian evidence for w0waCDM vanishes ( B = -0.300.19). The convergence of our findings with alternative statistical analyses suggests that the preference for dynamic dark energy is primarily driven by the resolution of inter-dataset tensions, warranting a cautious interpretation of its statistical significance.

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