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We introduce a new diagnostic for the null test of dynamical dark energy. This diagnostic is useful, especially when we include anisotropic baryon acoustic oscillation (BAO) data in an analysis, to quantify the deviations from the standard CDM model. This null test is independent of any late-time cosmological model or parametrization. With this, we study the evidence for dynamical dark energy in light of Dark Energy Spectroscopic Instrument (DESI) 2024 data combined with cosmic microwave background (CMB) observations of the Planck 2018 mission and local H₀ measurements. We find low (around 0. 6) to moderate (around 1) evidence for dynamical dark energy which is not that significant. Although we get individual deviations at around 2 at the effective redshift 0. 51 of the DESI 2024 data, the average deviations combining all redshift points are almost independent of the inclusion or exclusion of the data at effective redshift 0. 51 (the differences are only around 0. 3). We get almost similar results for other non-DESI BAO data. The evidences are almost independent of the early-time physics and these evidences have very low dependence on H₀ values. The evidence of dynamical dark energy, obtained in this analysis, is not consistent with the DESI key paper results with the w₀wₐCDM model, but interestingly, these are almost consistent with the DESI's results with zₚwₚCDM model.
Bikash R. Dinda (Fri,) studied this question.
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