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The research assesses various early-Universe dynamics within a non-minimal effective scalar–tensor gravity framework.

May 7, 2026Open Access

Non-minimal effective scalar–tensor gravity in the early universe

Key Points

The research assesses various early-Universe dynamics within a non-minimal effective scalar–tensor gravity framework.
Studied bounce, inflation, and genesis scenarios
Explored intrinsic degrees of freedom driving accelerated expansion
Analyzed Hubble parameter discrepancies in the context of galaxy clusters and relic radiation
Confirmed that bounce, inflation, and genesis stages are viable in the model
Identified two different values for the Hubble parameter
Proposed potential explanations for variations in Hubble constant measurements

Abstract

Abstract We study the consistency of several early-Universe scenarios within a framework of non-minimal effective scalar–tensor gravity. We show that bounce, inflation, and genesis stages are supported within the aforementioned theory. Consequently, this framework can serve as a viable model of the early Universe, where accelerated expansion is driven by the theory’s own intrinsic degrees of freedom. Notably, the theory also provides two different values of the Hubble parameter, potentially explaining the different values of the Hubble constant measured from galaxy clusters and relic radiation, respectively.

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Zenin et al. (Tue,) studied this question.

synapsesocial.com/papers/69fbe3aa164b5133a91a2d7e https://doi.org/https://doi.org/10.1140/epjc/s10052-026-15585-4

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