Cosmological perturbations and the transition from contraction to expansion
Abstract
We investigate both analytically and numerically the evolution of scalar perturbations generated in models which exhibit a smooth transition from a contracting to an expanding Friedmann universe. We find that the resulting spectral index in the late radiation dominated universe depends on which of the or ζ variables passes regularly through the transition. The results can be parameterized through the exponent q defining the rate of contraction of the universe. For q ≥ -1/2 we find that there are no stable cases where both variables are regular during the transition. In particular, for 0<q 1, we find that the resulting spectral index is close to scale invariant if is regular, whereas it has a steep blue behavior if ζ is regular. We also show that as long as q≤slant 1, perturbations arising from the Bardeen potential remain small during contraction in the sense that there exists a gauge in which all the metric and matter perturbation variables are small.
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