Andreas Bally scite author profile

We present a minimal viable Gauge-Higgs Grand Unification scenario in warped space based on a SU (6) bulk symmetry -unifying the gauge symmetries of the SM and their breaking sector. We show how the issue of light exotic new states is eliminated by appropriately breaking the gauge symmetry on the UV and IR boundaries by either brane scalars or gauge boundary conditions. The SM fermion spectrum is naturally reproduced including Dirac neutrinos and we compute the Higgs potential at one-loop, finding easily solutions with a realistic m h ∼ 125 GeV. The problem of proton decay is addressed by showing that baryon number is a hidden symmetry of the model. Among the phenomenological consequences, we highlight the presence of a scalar leptoquark and a scalar singlet. The usual X, Y gauge bosons from SU (5) GUTs are found at collider accessible masses.

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Neutrino Self-Interactions and XENON1T Electron Recoil Excess

Bally

Jana

Trautner

2020

Phys. Rev. Lett.

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The XENON1T collaboration recently reported an excess in electron recoil events in the energy range between 1-7 keV. This excess could be understood to originate from the known solar neutrino flux if neutrinos couple to a light vector mediator with strength g νN that kinetically mixes with the photon with strength χ and g νN χ ∼ 10 −13. Here, we show that such coupling values can naturally arise in a renormalizable model of long-range vector-mediated neutrino self-interactions. The model could be distinguished from other explanations of the XENON1T excess by the characteristic 1=T 2 energy dependence of the neutrino-electron scattering cross section. Other signatures include invisible Higgs and Z decays and leptophilic charged Higgses at a few 100 GeV. ALPS II will probe part of the viable parameter space.

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EFT interpretation of XENON1T electron recoil excess: Neutrinos and dark matter

Arcadi¹,

Bally

Goertz

et al. 2021

Phys. Rev. D

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Unification of Gauge Symmetries ... including their breaking

Angelescu

Bally

Blasi³

et al. 2022

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In this talk, we present a minimal viable scenario that unifies the gauge symmetries of the Standard Model (SM) and their breaking sector. Our Gauge-Higgs Grand Unification setup employs 5D warped space with a (6) bulk gauge field that includes both a (5) grand unified theory (GUT) and a Higgs sector as a scalar component of the 5D vector field, solving the hierarchy problem. By appropriately breaking the gauge symmetry on the boundaries of the extra dimension the issue of light exotic new states, appearing generically in such models, is eliminated and the SM fermion spectrum is naturally reproduced. The Higgs potential is computed at one-loop, finding straightforward solutions with a realistic ℎ = 125 GeV. The problem of proton decay is addressed by showing that baryon number is a hidden symmetry of the model. The presence of a scalar leptoquark and a scalar singlet is highlighted, which might play a role in solving further problems of the SM, allowing for example for electroweak baryogenesis. Finally, the and gauge bosons from(5) GUTs are found at collider accessible masses, opening a window to the unification structure at low energies.

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SU(6) gauge-Higgs grand unification: minimal viable models and flavor

Angelescu

Bally

Goertz

et al. 2023

J. High Energ. Phys.

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Gauge-Higgs grand unification theories are models of gauge-Higgs unification that extend the electroweak group into a simple group that includes the color symmetry. The minimal option is a gauge-Higgs grand unification based on the SU(6) gauge group, mirroring SU(5) grand unification in 4D while providing a solution to the hierarchy problem. We explore different minimal and realistic novel incarnations of SU(6) gauge-Higgs grand unification. We submit the setup to the various flavor hierarchies observed in nature and, utilizing the power of the fifth dimension, identify an embedding that provides a compelling model of quarks and leptons that naturally explains the mass hierarchies and the CKM/PMNS structure. We perform a detailed study of quark- and lepton-flavor constraints (which are intimately related due to the GUT nature) together with an analysis of the Higgs potential which arises at the loop level. Electroweak precision constraints on the model are discussed and the rich scalar sector is analyzed. Future flavor constraints from upcoming experiments will provide a stringent test for this class of models, while a scalar singlet and leptoquark provide unique targets for current and future collider experiments to probe this solution to various open questions in nature.

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Andreas Bally

Minimal SU(6) gauge-Higgs grand unification

Neutrino Self-Interactions and XENON1T Electron Recoil Excess

EFT interpretation of XENON1T electron recoil excess: Neutrinos and dark matter

Unification of Gauge Symmetries ... including their breaking

SU(6) gauge-Higgs grand unification: minimal viable models and flavor

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