Does DESI DR2 challenge paradigm ?

Abstract

Although debate on DESI DR1 systematics remains, DESI DR2 is consistent with DR1 and strengthens its trends. In our analysis, the LRG1 point at zeff=0.510 and the LRG3+ELG1 point at zeff=0.934 are in tension with the -anchored m inferred from Planck and SNe Ia (Pantheon+, Union3, DES-SN5YR): for LRG1 the tensions are 2.42σ, 1.91σ, 2.19σ, and 2.99σ; for LRG3+ELG1 they are 2.60σ, 2.24σ, 2.51σ, and 2.96σ. Across redshift bins DR2 shows improved agreement relative to DR1, with the m tension dropping from 2.20σ to 1.84σ. Nevertheless, DR2 alone is not decisive against , and the apparent deviation is driven mainly by LRG1 and LRG2. In a ω0ωaCDM fit using all tracers we find a posterior mean with w0>-1, consistent with dynamical dark energy and nominally challenging . Removing LRG1 and/or LRG2 restores concordance (ω0-1); moreover, ω0(LRG2)>w0(LRG1), indicating that LRG2 drives the trend more strongly. Model selection via the natural-log Bayes factor (Z/Zω0ωaCDM) yields weak evidence for when LRG1, LRG2, or both are removed, and is inconclusive for the full sample. Hence the data do not require the extra ωa freedom, and the apparent ω0>-1 preference should be interpreted cautiously as a reflection of the ω0ωa degeneracy with limited per-tracer information.