Curvature Perturbations from Higgs Modulated Reheating

Abstract

In this work we investigate curvature perturbations and non-Gaussianity arising from Higgs modulated reheating in the early Universe. We employ three different methods -- the period-averaging (PA) method, the exact method, and the non-perturbative δ N formalism -- to compute the power spectrum and bispectrum of curvature perturbations. Our results show that the non-perturbative δ N method provides a reliable estimate across a wide range of reheating time and Higgs field values, including regimes where the Higgs field oscillates significantly after inflation. We find that a smaller Higgs self-coupling (λ) leads to a larger curvature perturbation, with the non-Gaussianity predominantly taking a local shape. This highlights the importance of considering non-perturbative effects in calculating the curvature perturbation during Higgs modulated reheating, especially for smaller values of λ. Our findings offer valuable insights into the dynamics of reheating and the generation of primordial perturbations in the early Universe.

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