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Article Dans Une Revue Journal of High Energy Physics Année : 2021

Neutrino masses, vacuum stability and quantum gravity prediction for the mass of the top quark

Guillem Domènech
  • Fonction : Auteur
Christof Wetterich
  • Fonction : Auteur

Résumé

A general prediction from asymptotically safe quantum gravity is the approximate vanishing of all quartic scalar couplings at the UV fixed point beyond the Planck scale. A vanishing Higgs doublet quartic coupling near the Planck scale translates into a prediction for the ratio between the mass of the Higgs boson M$_{H}$ and the top quark M$_{t}$. If only the standard model particles contribute to the running of couplings below the Planck mass, the observed M$_{H}$∼ 125 GeV results in the prediction for the top quark mass M$_{t}$∼ 171 GeV, in agreement with recent measurements. In this work, we study how the asymptotic safety prediction for the top quark mass is affected by possible physics at an intermediate scale. We investigate the effect of an SU(2) triplet scalar and right-handed neutrinos, needed to explain the tiny mass of left-handed neutrinos. For pure seesaw II, with no or very heavy right handed neutrinos, the top mass can increase to M$_{t}$ ∼ 172.5 GeV for a triplet mass of M$_{∆}$ ∼ 10$^{8}$GeV. Right handed neutrino masses at an intermediate scale increase the uncertainty of the predictions of M$_{t}$ due to unknown Yukawa couplings of the right-handed neutrinos and a cubic interaction in the scalar potential. For an appropriate range of Yukawa couplings there is no longer an issue of vacuum stability.
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Dates et versions

hal-02933945 , version 1 (06-02-2024)

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Guillem Domènech, Mark Goodsell, Christof Wetterich. Neutrino masses, vacuum stability and quantum gravity prediction for the mass of the top quark. Journal of High Energy Physics, 2021, 01, pp.180. ⟨10.1007/JHEP01(2021)180⟩. ⟨hal-02933945⟩
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