Chudaykin A., Gorbunov D., Nedelko N. «Exploring Λ CDM extensions with SPT-3G and Planck data: 4σ evidence for non-zero neutrino masses and implications of extended dark energy models for cosmological tensions» Журнал экспериментальной и теоретической физики, 168, № 6, с. 790-832 (2025)

We present cosmological constraints in the Λ CDM model and a set of its extensions from a dataset based on the polarization and gravitational lensing measurements from the South Pole Telescope and the large-scale (l<1000) part of the Planck CMB temperature measurements. In all cosmological scenarios, this CMB data combination brings the clustering measurements into agreement with the low-redshift probes of large-scale structure, resolving the S8 tension. Combining this CMB set with a full-shape treatment of the BOSS large-scale structure observations, additional BAO measurements, information from weak lensing and photometric galaxy clustering surveys, and the Pantheon supernova catalog, we find a ∼4σ preference for non-zero neutrino mass, ∑√_u=0.221±0.055 eV. We also explore dynamical dark energy in the context of the Hubble tension with two phenomenological late-time approaches introducing a phantom crossing in the dark energy equation of state. For the combination of all data considered, both models predict H₀≃68 km,·s^–1Mpc in ∼3σ tension with the SH0ES constraint, if the supernova absolute magnitude MB is calibrated by CMB and LSS data as a free parameter. While it is possible to achieve H0 values consistent with SH0ES by fixing MB to the Cepheid-derived value, that is shown to not be a valid approach as it introduces an implicit 4.5σ tension between CMB and the local Universe.