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Bibliographic Details
Main Authors: Bonanno, Alfio M., Glaviano, Emiliano M.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.20820
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author Bonanno, Alfio M.
Glaviano, Emiliano M.
author_facet Bonanno, Alfio M.
Glaviano, Emiliano M.
contents We investigate the ultraviolet completion of an $O(N)$ scalar field theory non-minimally coupled to gravity using the Wilsonian functional renormalization group in the proper-time formulation. Focusing on the spontaneously broken phase, we study the RG flow of the scalar potential and the non-minimal curvature coupling expanded around a running minimum. We identify two distinct classes of fixed-point solutions, one of which is ultraviolet attractive and characterized by a vanishing quartic coupling together with finite, interacting gravitational couplings. For a finite region of infrared initial conditions, the RG trajectories remain regular at all scales and approach this fixed point. This mechanism renders the theory asymptotically safe and leads to a flat scalar potential in the ultraviolet. We show that this mechanism is robust under changes of cutoff scheme and truncation, allowing the ultraviolet completion requirement to constrain the infrared values of the scalar couplings and the mass scale in the broken phase.
format Preprint
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institution arXiv
publishDate 2026
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spellingShingle Gravitationally Induced UV Completion of an $O(N)$ Scalar Theory
Bonanno, Alfio M.
Glaviano, Emiliano M.
High Energy Physics - Theory
We investigate the ultraviolet completion of an $O(N)$ scalar field theory non-minimally coupled to gravity using the Wilsonian functional renormalization group in the proper-time formulation. Focusing on the spontaneously broken phase, we study the RG flow of the scalar potential and the non-minimal curvature coupling expanded around a running minimum. We identify two distinct classes of fixed-point solutions, one of which is ultraviolet attractive and characterized by a vanishing quartic coupling together with finite, interacting gravitational couplings. For a finite region of infrared initial conditions, the RG trajectories remain regular at all scales and approach this fixed point. This mechanism renders the theory asymptotically safe and leads to a flat scalar potential in the ultraviolet. We show that this mechanism is robust under changes of cutoff scheme and truncation, allowing the ultraviolet completion requirement to constrain the infrared values of the scalar couplings and the mass scale in the broken phase.
title Gravitationally Induced UV Completion of an $O(N)$ Scalar Theory
topic High Energy Physics - Theory
url https://arxiv.org/abs/2601.20820