Nonlinear matter terms in general scalar-tensor braneworld cosmology

Abstract

A five dimensional braneworld cosmological model in general scalar-tensor action comprises of various Horndeski Lagrangian is considered. The Friedmann equations in the case of the strongly and weakly coupled L5 Horndeski Lagrangian have been obtained. The strongly coupled L5 model produces the Cardassian term n with n= 1/2, which can served as alternative explanation for the accelerated expansion phase of the universe. Furthermore, the latest combined observational facts from BAO, CMB, SNIa, fσ8, and H0 value observation suggest that the n=-1/2 term lies quite close to the constrained value. On the other hand, the weakly coupled L5 case has several new correction terms which are omitted in the braneworld Einstein-Hilbert model, e.g. the cubic 3 and the dark radiation-matter interaction term a-4. Furthermore, this model provides a cosmological constant constructed from the bulk scalar field, requires no brane tension, and supports the big bang nucleosynthesis (BBN) constraint naturally.