Higgs-Squark-Slepton Inflation from the MSSM
Abstract
The inflation within the MSSM is proposed, where the inflaton field is a combination of the Higgs, squark and slepton states. While the inflationary phase is fully governed by the electron Yukawa superpotential coupling, the fields' condensates float along the flat D-term trajectory. This predicts the MSSM parameter β 13.1 determined via the value of the curvature perturbation amplitude. The values of the scalar spectral index and the tensor-to-scalar ratio are predicted to be ns 0.966 and r=0.00118. The postinflation reheating of the Universe proceeds by the radiative decay of the inflaton to the two gluons (φ gg) with the reheating temperature Tr 1.4· 107 GeV.
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