Chaotic dynamics in preheating after inflation
Abstract
We study chaotic dynamics in preheating after inflation in which an inflaton φ is coupled to another scalar field through an interaction (1/2)g2φ22. We first estimate the size of the quasi-homogeneous field at the beginning of reheating for large-field inflaton potentials V(φ)=V0φn by evaluating the amplitude of the fluctuations on scales larger than the Hubble radius at the end of inflation. Parametric excitations of the field during preheating can give rise to chaos between two dynamical scalar fields. For the quartic potential (n=4, V0=λ/4) chaos actually occurs for g2/λ < O(10) in a linear regime before which the backreaction of created particles becomes important. This analysis is supported by several different criteria for the existence of chaos. For the quadratic potential (n=2) the signature of chaos is not found by the time at which the backreaction begins to work, similar to the case of the quartic potential with g2/λ 1.
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