Cosmic chronometers, Pantheon+ supernovae, and quasars favor coasting cosmologies over the flat model

Abstract

We test and compare coasting cosmological models with curvature parameters k=\ -1,0,+1 \ in H02 c-2 units and the flat model by fitting them to cosmic chronometers (CC), the Pantheon+ sample of type Ia supernovae (SNe), and standardized quasars (QSOs). We used the emcee code for fitting CC data, a custom Markov Chain Monte Carlo implementation for SNe and QSOs, and Anderson-Darling tests for normality on normalized residuals for model comparison. Best-fit parameters are presented, constrained by data within redshift ranges z≤ 2 for CCs, z≤ 2.3 for SNe, and z≤ 7.54 for QSOs. Coasting models, particularly the flat coasting model, are generally favored over the flat model. The overfitting of the flat model to Pantheon+ SNe and the large intrinsic scatter in QSO data suggest a need to refine error estimates in these datasets. We also highlight the seemingly fine-tuned nature of either the CC data or m,0 in the flat model to an H1=H0 coincidence when fitting H(z)=H1z+H0, a natural feature of coasting models.

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