Investigating the wCDM Model with Latest DESI BAO Observations
Abstract
In this study, we explore the impact of various combinations of CMB-independent datasets, including the recent DESI BAO measurements, on the equation of state (EoS) of dark energy and other cosmological parameters within the framework of the dynamical dark energy model (wCDM). Assuming a constant EoS parameter for dark energy, we derive constraints on the free parameters of the model using observational datasets such as DESI BAO, BBN, Observational Hubble Data (OHD), and Pantheon Plus (SN+) \& SH0ES. Our analysis examines the deviations of the wCDM model from the standard scenario and assesses its implications for cosmological tensions, particularly the H0 tension [km s-1 Mpc-1]. We find that the combination of DESI BAO + BBN + OHD + SN+ (DESI BAO + BBN + OHD + SN+ \&SH0ES) datasets provides constraints on wde0, suggesting a possible deviation from the cosmological constant scenario at a significance level of 1.6σ (1.4σ), respectively. Furthermore, we observe an inverse correlation between wde0 and H0, which highlights the role of dark energy dynamics in resolving the tension H0 by approximately 2.1σ(0.8σ) from DESI BAO + BBN + OHD (DESI BAO + BBN + OHD + SN+ \&SH0ES) datasets, respectively. Our findings offer valuable insights into the nature of dark energy and its influence on the cosmic expansion history, with implications for future observational efforts. We utilize the Akaike Information Criterion (AIC) and Bayesian Information Criterion (BIC) to evaluate our model's performance. The results indicate that the wCDM model demonstrates superior effectiveness.
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