Inflation vs. Ekpyrosis - Comparing stability in general non-minimal theory

The scalar field is considered to have dominated the early Universe. One subtle yet crucial requirement of this assumption is that the solution must be highly stable, i.e., indifferent to any initial conditions because there are no favored ones. Inflation, which is now the most successful early Universe paradigm, answers most of the early Universe's problems, including the fact that it is mostly stable. In this article, in addition to the inflationary solution, we systematically investigate every possible early Universe solution in the presence of a barotropic fluid in the general non -minimal (scalar-tensor) theory. In doing so, we rely upon the classical perturbative techniques. We find, to our surprise, that inflation does not always ensure stability in the Einstein frame, although ekpyrosis can. We also discover that, contrary to the inflationary paradigm, ekpyrosis always assures stability in the presence of any fluid with any equation of state in general non -minimal models. We utilize the conformal transformation to map the inflationary theory in the minimal frame to the ekpyrotic theory in the non -minimal frame, and show that the latter is always much more stable than the former, resulting in a much more preferred model that can even be studied in different contexts such as late time cosmology.