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The Slow-Roll and Rapid-Roll Conditions in the Space-like Vector Field Scenario

Abstract

In this note we derive the slow-roll and rapid-roll conditions for the minimally and non-minimally coupled space-like vector fields. The function f(B2)f(B^{2}) represents the non-minimal coupling effect between vector fields and gravity, the f=0f=0 case is the minimal coupling case. For a clear comparison with scalar field, we define a new function F=±B2/12+f(B2)F=\pm B^{2}/12+f(B^{2}) where B2=AμAμB^{2}=A_{\mu}A^{\mu}, AμA_{\mu} is the "comoving" vector field. With reference to the slow-roll and rapid-roll conditions, we find the small-field model is more suitable than the large-field model in the minimally coupled vector field case. And as a non-minimal coupling example, the F=0 case just has the same slow-roll conditions as the scalar fields.Comment: no figur

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    Last time updated on 03/01/2020