12-CDM: A promising phenomenological extension of the standard model of cosmology
Abstract
We investigate a phenomenological extension of the standard framework, the 12- model, in which the total energy density of the universe is expanded in powers of 1+z. This parameterization recovers and introduces two additional terms, 1(1+z) and 2(1+z)2, in the dark energy sector alongside the cosmological constant, leading to a physically interpretable and observationally testable effective dark energy dynamics. Using Planck cosmic microwave background (CMB) data, we find that the model allows additional freedom in the late-time expansion history while preserving standard early-universe physics. When DESI baryon acoustic oscillation (BAO) data are included, the inferred Hubble constant is H0 = 69.74 0.77~km\;s-1\;Mpc-1 (68% CL), consistent with Tip of the Red Giant Branch (TRGB) measurements from the Carnegie--Chicago Hubble Program (CCHP). The reconstructed dark energy equation of state exhibits a smooth transition across the phantom divide followed by asymptotic de Sitter behavior, modifying late-time dynamics while maintaining standard early-time cosmology. Overall, controlled late-time deviations from improve cosmological concordance.
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