Updated Cosmological Constraints from 2D BAO Measurements: A New Compilation and Comparison with DESI DR2 (2510.16141v1)

Abstract: We investigate and update observational constraints on cosmological parameters within the $\Lambda$CDM and dynamical dark energy frameworks, using a new compilation of the transverse (or 2D) BAO data, measurements that provide a relatively model-independent estimate of the BAO angular scale at a given redshift. Firstly, we assess the consistency of this compilation with CMB-Planck data and recent BAO results from the DESI collaboration. After confirming minimal tension with CMB data, we perform a series of joint analyses combining CMB data with the 2D~BAO compilation, as well as with several recent Type Ia supernova (SNIa) samples. In all cases, we compare the constraining power of the 2D~BAO data with that of DESI~DR2 samples. Our results indicate that combining 2D~BAO with CMB and SNIa data provides observational constraints that are competitive with those obtained using DESI~DR2. Although the precision of DESI~DR2 results remains higher, as expected due to the more accurate 3D measurements, the 2D~BAO compilation yields strong constraints. For example, in the $\Lambda$CDM context, we find $H_0 = 68.16^{+0.41}_{-0.37} \,\,\, \text{km s}^{-1}\,\text{Mpc}^{-1}$ (CMB + 2D~BAO) and $\Sigma m_{\nu} < 0.081~\mathrm{eV}$ (95\%~CL). These results are comparable to analogous analyses using DESI~DR2. Several other cases are analyzed and presented in the main text. Due to these results, we conclude that this new 2D~BAO compilation is both robust and competitive in constraining cosmological parameters, and, importantly, it does not exhibit significant tension with CMB measurements.