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Hauptverfasser: Zahoor, Mehnaz, Khan, Suhail, Bhat, Imtiyaz Ahmad
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2507.18684
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author Zahoor, Mehnaz
Khan, Suhail
Bhat, Imtiyaz Ahmad
author_facet Zahoor, Mehnaz
Khan, Suhail
Bhat, Imtiyaz Ahmad
contents Recent results from the ACT collaboration indicate a higher value for the scalar spectral index, with $n_s = 0.9743 \pm 0.0034$, which sets tighter constraints on inflationary models, and these shifts are not in favor of many pre existing scenarios, including the widely studied and accepted standard Starobinsky model. In this paper, we examine the fractional power scalar potential within the framework of Einstein Gauss Bonnet (EGB) gravity, incorporating standard slow roll approximation. The EGB theory, motivated by higher dimensional models, introduces quadratic curvature corrections and a coupling between the scalar field and the Gauss Bonnet term, thereby modifying the cosmological dynamics. The results show good agreement with observational data, placing the predictions within the $1 σ$ region of the ACT $r-n_s$ constraint plot. Furthermore, incorporating the running of the scalar spectral index reinforces the models consistency with observational bounds. We also explore the parameter space of the EGB couplings and identify the range of free parameters for which the results of $n_s$ and $r$ values remain within the $1 σ$ region of the ACT constraints. Finally, we also investigate the reheating phase, demonstrating that the model not only agrees with ACT data but also satisfies the lower bound on the reheating temperature, thereby ensuring a consistent and viable cosmological scenario.
format Preprint
id arxiv_https___arxiv_org_abs_2507_18684
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Reconciling Fractional Power Potential and EGB Gravity in the light of ACT
Zahoor, Mehnaz
Khan, Suhail
Bhat, Imtiyaz Ahmad
Cosmology and Nongalactic Astrophysics
Recent results from the ACT collaboration indicate a higher value for the scalar spectral index, with $n_s = 0.9743 \pm 0.0034$, which sets tighter constraints on inflationary models, and these shifts are not in favor of many pre existing scenarios, including the widely studied and accepted standard Starobinsky model. In this paper, we examine the fractional power scalar potential within the framework of Einstein Gauss Bonnet (EGB) gravity, incorporating standard slow roll approximation. The EGB theory, motivated by higher dimensional models, introduces quadratic curvature corrections and a coupling between the scalar field and the Gauss Bonnet term, thereby modifying the cosmological dynamics. The results show good agreement with observational data, placing the predictions within the $1 σ$ region of the ACT $r-n_s$ constraint plot. Furthermore, incorporating the running of the scalar spectral index reinforces the models consistency with observational bounds. We also explore the parameter space of the EGB couplings and identify the range of free parameters for which the results of $n_s$ and $r$ values remain within the $1 σ$ region of the ACT constraints. Finally, we also investigate the reheating phase, demonstrating that the model not only agrees with ACT data but also satisfies the lower bound on the reheating temperature, thereby ensuring a consistent and viable cosmological scenario.
title Reconciling Fractional Power Potential and EGB Gravity in the light of ACT
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2507.18684