Big Bang Nucleosynthesis and Entropy Evolution in f(R,T) Gravity

Abstract

The present article is devoted to constrain the model parameter for the f(R,T)= R + T gravity model by employing the constraints coming from big bang nucleosynthesis. We solve the field equations and constrain in the range -0.14 2 ≤ ≤ 0.84 2 (where 2 = 8 π Gc4) from the primordial abundances of light elements such as helium-4, deuterium and lithium-7. We found the abundances of helium-4 and deuterium agrees with theoretical predictions, however the lithium problem persists for the f(R,T) gravity model. We also investigate the evolution of entropy for the constrained parameter space of for the radiation and dust universe. We report that entropy is constant when = 0 for the radiation dominated universe, whereas for the dust universe, entropy increases with time. We finally use the constraints to show that has negligible influence on the cold dark matter annihilation cross section.