In the frame of conformal Killing gravity cosmology, we performed a Bayesian analysis on two different datasets of baryon acoustic oscillations (DESI and SDSS DR16), two datasets of SNeIa (Pantheon þ and Union3), and using the cosmic microwave background (CMB) Planck likelihood. The results for H0 and ΩM in a spatially flat Friedmann-Lemaître-Robertson-Walker (FLRW) background are consistent with the Λ cold dark matter (ΛCDM) scenario. We obtain a non-negligible negative value for the novel density of dark sector, ΩD, and its relevance in the evolution of the cosmological observables, thus finding quantitatively what its contribution is on real data to match the standard scenario. The results confirm the dynamical character of dark energy. We also calculate the deceleration parameter q0 and the present time dark energy equation of state parameter w0: the latter belongs to the quintessence regime. The evaluation of the first acoustic peak of CMB places it near to the best value provided by the Planck Collaboration. In this scenario, we can conclude that late time and early time data can be successfully matched under the same standard.
Constraints on cosmological parameters and CMB first acoustic peak in conformal Killing gravity / S. Capozziello, C.A. Mantica, L.G. Molinari, G. Sarracino. - In: PHYSICAL REVIEW D. - ISSN 2470-0010. - 113:1(2025), pp. 015006.1-015006.14. [10.1103/148q-6tm2]
Constraints on cosmological parameters and CMB first acoustic peak in conformal Killing gravity
C.A. ManticaSecondo
;L.G. Molinari
Penultimo
;
2025
Abstract
In the frame of conformal Killing gravity cosmology, we performed a Bayesian analysis on two different datasets of baryon acoustic oscillations (DESI and SDSS DR16), two datasets of SNeIa (Pantheon þ and Union3), and using the cosmic microwave background (CMB) Planck likelihood. The results for H0 and ΩM in a spatially flat Friedmann-Lemaître-Robertson-Walker (FLRW) background are consistent with the Λ cold dark matter (ΛCDM) scenario. We obtain a non-negligible negative value for the novel density of dark sector, ΩD, and its relevance in the evolution of the cosmological observables, thus finding quantitatively what its contribution is on real data to match the standard scenario. The results confirm the dynamical character of dark energy. We also calculate the deceleration parameter q0 and the present time dark energy equation of state parameter w0: the latter belongs to the quintessence regime. The evaluation of the first acoustic peak of CMB places it near to the best value provided by the Planck Collaboration. In this scenario, we can conclude that late time and early time data can be successfully matched under the same standard.
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37) CKG_cosmology_PRD2026.pdf
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37) CKGCapozziello.pdf
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