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Title Structure formation in generalized Rastall gravity
Type JournalPaper
Keywords Modified gravity theories, Structure formation, Density perturbation
Abstract Recently, a modified version of Rastall theory of gravity has been introduced in which a varying coupling parameter could act as dark energy (DE) and thus, it can be held responsible for the current accelerated expansion of the Universe. Motivated by this modification, we study here the evolution of linear and nonlinear perturbations in the matter content of the Universe, utilizing spherically symmetric top-hat collapse scenario. The exact solutions we obtain in linear regime show that as the Universe evolves, matter density perturbations grow and reach a maximum value at a certain redshift after which these perturbations start decreasing toward a finite positive value at the present time. Depending on model parameters, exact oscillatory solutions can be also found representing that matter perturbations could experience either overdense and underdense regions during the dynamical evolution of the Universe. Numerical solutions in nonlinear regime show that the amplitude of perturbations grows much faster than the linear one and diverges at a critical redshift. However, the formation of collapsed structures is delayed as compared to CDM model. It is found that the running mutual interaction between matter and geometry, encoded in the variable Rastall coupling parameter, could drastically affect the dynamics of matter perturbations and their growth rate during the evolution of the Universe
Researchers Hamid Shabani (Third Researcher), Hooman Moradpour (Second Researcher), Amir Hadi Ziaie (First Researcher)