Observational evidence for parametrized emergent dark energy models

Abstract

Recent cosmological observations show a statistically significant tension in the estimated values of the cosmological parameters within the standard framework. In a recent study, Li and Shafieloo introduced a simple Phenomenological Emergent Dark Energy (PEDE) model, which possesses the same number of parameters as that of the model. Their research highlighted this model as a viable alternative to , capable of alleviating the Hubble tension and explaining the late-time cosmic acceleration. Following this, we consider a series of PEDE-type models where a new parameter b is introduced in the dark energy expression that distinguishes one model from the other and is designated as bPEDE models. The PEDE and models were the special cases of the bPEDE model. In contrast to the PEDE model, the bPEDE model demonstrates the presence of dark energy in the past while indicating its absence in the asymptotic future. Confronting these models with the observational Hubble data (OHD) shows that a series of bPEDE models fit the data better than the PEDE model and the standard model. Notably, the Hubble constant (H0) value computed using the best-fit bPEDE models closely aligns with the CMBR prediction. It significantly deviates from the local measurement at a significance level of approximately 3.4σ for the model independent OHD data combination. The outcome suggests reconsidering the systematic uncertainties associated with the local measurement. The best-fit bPEDE models predict the deceleration to acceleration transition at a redshift zT 0.78 which is in close agreement with the prediction. The age of the universe predicted by the bPEDE model is 14 Gyr, slightly higher than the age predicted by the model. The statefinder trajectory reveals a quintessence nature of dark energy.

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