The coincidence problem and the Swampland conjectures in the Ijjas-Steinhardt cyclic model of the universe

The coincidence problem and the Swampland conjectures in the Ijjas-Steinhardt cyclic model of the universe

Blog Article

In the Ijjas-Steinhardt cyclic model, the universe passes through phases dominated by radiation, matter, and a dark energy scalar field, with the value of the scale factor increasing with each cycle.Since each cycle terminates in a finite time, it here is straightforward to calculate the fraction of time that the universe spends in a state for which the matter and dark energy densities have comparable magnitudes; when this fraction is large, it can be taken as a solution of the coincidence problem.This solution of the coincidence problem requires a relatively short lifetime for each cycle, but unlike in the case of phantom models, there is no fixed upper bound on this superdry baseball top lifetime.However, scalar field models satisfying the Swampland conjectures yield sufficiently short lifetimes to provide a satisfactory resolution of the coincidence problem.