Improved predictions on Higgs-Starobinsky inflation and reheating with ACT DR6 and primordial gravitational waves
Article Type
Research Article
Publication Title
Physics Letters Section B Nuclear Elementary Particle and High Energy Physics
Abstract
In this letter, we investigate the implications of recent CMB observations for Higgs-Starobinsky inflationary models and their associated reheating dynamics, utilising data from ACT DR6, Planck 2018, BICEP/Keck 2018, and DESI, collectively referred to as P-ACT-LB-BK18. In addition to direct CMB constraints, we incorporate indirect bounds arising from the potential overproduction of primordial gravitational waves (PGWs), particularly through limits on the effective number of relativistic species, ΔNeff, during Big Bang Nucleosynthesis (BBN). These constraints become especially relevant in scenarios featuring a stiff post-inflationary equation of state wRH≥0.58. Our analysis shows that, when both P-ACT-LB-BK18 data and ΔNeff bounds are considered, the viable number of inflationary e-folds is restricted to the range 57.9-62.2 at the 2σ confidence level (C.L.). Correspondingly, the reheating temperature is constrained to lie between the BBN energy scale and 1012 GeV, with the post-inflationary equation-of-state parameter satisfying wRH>0.41. However, no parameter space remains viable at the 1σ C.L. once ΔNeff constraints from PGWs are included, rendering the Higgs-Starobinsky model highly restricted.
DOI
10.1016/j.physletb.2025.139852
Publication Date
10-1-2025
Recommended Citation
Riajul Haque, Md; Pal, Sourav; and Paul, Debarun, "Improved predictions on Higgs-Starobinsky inflation and reheating with ACT DR6 and primordial gravitational waves" (2025). Journal Articles. 5423.
https://digitalcommons.isical.ac.in/journal-articles/5423