Cosmological Implications of a New Creation Field in Hoyle-Narlikar Gravity with Bulk Viscous Fluid

Abstract

In this study, we present a comprehensive investigation of the Narlikar gravity model with bulk viscous fluid by the new foam of creation field C(t) = t + ∫ α (1 - a)dt + c1, based on the Hoyle-Narlikar's creation-field theory, using a joint analysis of Observational Hubble Data (OHD) and the Pantheon supernova (PP) compilation. Our analysis reveals that the creation field coupling constant (f) is always positive within the Narlikar gravity model from OHD+PP data sets. The best-fit estimates yield H0 = 71.2 2.1 km s-1Mpc-1 and 0 = 0.23, quoted at the 1 σ level. The Narlikar gravity model predicts a transition redshift of zt ≈ 0.63 marking the onset of late-time cosmic acceleration, with the corresponding age of the Universe estimated as 13.501.80 Gyr. Interestingly, the inferred higher value of H0, relative to SH0ES determinations, suggests a possible alleviation of the 4.1σ Hubble tension. Furthermore, we assess the stability of the model and demonstrate that the late-time acceleration can be consistently explained through the energy conditions. This model retains dynamical flexibility while ensuring analytical tractability and provides a promising framework to investigate the cosmological implications of Hoyle-Narlikar gravity, particularly regarding late-time acceleration and the evolution of dark energy.