Joint Constraints on the Hubble Constant, Spatial Curvature, and Sound Horizon from the Late-time Universe with Cosmography
Abstract
In this paper, using the latest Pantheon+ sample of Type Ia supernovae (SNe Ia), Baryon Acoustic Oscillation (BAO) measurements, and observational Hubble data (OHD), we carry out a joint constraint on the Hubble constant H0, the spatial curvature K, and the sound horizon at the end of drag epoch r d. To be model-independent, four cosmography models, i.e., the Taylor series in terms of redshift y1=z/(1+z), y2=(z), y3=(1+z), and the Pad\'e approximants, are used without the assumption of flat Universe. The results show that the H0 is anti-correlated with K and r d, indicating smaller K or r d would be helpful in alleviating the Hubble tension. And the values of H0 and r d are consistent with the estimate derived from the Planck Cosmic Microwave Background (CMB) data based on the flat model, but H0 is in 2.33.0σ tension with that obtained by Riess2022 in all these cosmographic approaches. Meanwhile, a flat Universe is preferred by the present observations under all approximations except the third order of y1 and y2 of the Taylor series. Furthermore, according to the values of the Bayesian evidence, we found that the flat remains to be the most favored model by the joint datasets, and the Pad\'e approximant of order (2,2), the third order of y3 and y1 are the top three cosmographic expansions that fit the datasets best, while the Taylor series in terms of y2 are essentially ruled out.
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