Proton decay: flipped vs. unflipped SU(5)

John Ellis; Marcos A.G. Garcia; Natsumi Nagata; Dimitri V. Nanopoulos; Keith A. Olive

doi:10.1007/JHEP05(2020)021

Proton decay: flipped vs. unflipped SU(5)

John Ellis, Marcos A.G. Garcia, Natsumi Nagata, Dimitri V. Nanopoulos, Keith A. Olive

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22 Scopus citations

Abstract

We analyze nucleon decay modes in a no-scale supersymmetric flipped SU(5) GUT model, and contrast them with the predictions for proton decays via dimension-6 operators in a standard unflipped supersymmetric SU(5) GUT model. We find that these GUT models make very different predictions for the ratios Γ(p → π⁰μ⁺)/Γ(p → π⁰e⁺), Γ(p →π⁺ν¯)/Γ(p → π⁰e⁺), Γ(p → K⁰e⁺)/Γ(p → π⁰e⁺) and Γ(p → K⁰μ⁺)/Γ(p → π⁰μ⁺), and that predictions for the ratios Γ(p → π⁰μ⁺)/Γ(p → π⁰e⁺) and Γ(p →π⁺ν¯)/Γ(p → π⁰e⁺) also differ in variants of the flipped SU(5) model with normal- or inverse-ordered light neutrino masses. Upcoming large neutrino experiments may have interesting opportunities to explore both GUT and flavour physics in proton and neutron decays.

Original language	English (US)
Article number	21
Journal	Journal of High Energy Physics
Volume	2020
Issue number	5
DOIs	https://doi.org/10.1007/JHEP05(2020)021
State	Published - May 1 2020
Externally published	Yes

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© 2020, The Author(s).

Keywords

Supersymmetry Phenomenology

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title = "Proton decay: flipped vs. unflipped SU(5)",

abstract = "We analyze nucleon decay modes in a no-scale supersymmetric flipped SU(5) GUT model, and contrast them with the predictions for proton decays via dimension-6 operators in a standard unflipped supersymmetric SU(5) GUT model. We find that these GUT models make very different predictions for the ratios Γ(p → π0μ+)/Γ(p → π0e+), Γ(p →π+ν¯)/Γ(p → π0e+), Γ(p → K0e+)/Γ(p → π0e+) and Γ(p → K0μ+)/Γ(p → π0μ+), and that predictions for the ratios Γ(p → π0μ+)/Γ(p → π0e+) and Γ(p →π+ν¯)/Γ(p → π0e+) also differ in variants of the flipped SU(5) model with normal- or inverse-ordered light neutrino masses. Upcoming large neutrino experiments may have interesting opportunities to explore both GUT and flavour physics in proton and neutron decays.",

keywords = "Supersymmetry Phenomenology",

author = "John Ellis and Garcia, {Marcos A.G.} and Natsumi Nagata and Nanopoulos, {Dimitri V.} and Olive, {Keith A.}",

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doi = "10.1007/JHEP05(2020)021",

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AU - Ellis, John

AU - Garcia, Marcos A.G.

AU - Nagata, Natsumi

AU - Nanopoulos, Dimitri V.

AU - Olive, Keith A.

PY - 2020/5/1

Y1 - 2020/5/1

N2 - We analyze nucleon decay modes in a no-scale supersymmetric flipped SU(5) GUT model, and contrast them with the predictions for proton decays via dimension-6 operators in a standard unflipped supersymmetric SU(5) GUT model. We find that these GUT models make very different predictions for the ratios Γ(p → π0μ+)/Γ(p → π0e+), Γ(p →π+ν¯)/Γ(p → π0e+), Γ(p → K0e+)/Γ(p → π0e+) and Γ(p → K0μ+)/Γ(p → π0μ+), and that predictions for the ratios Γ(p → π0μ+)/Γ(p → π0e+) and Γ(p →π+ν¯)/Γ(p → π0e+) also differ in variants of the flipped SU(5) model with normal- or inverse-ordered light neutrino masses. Upcoming large neutrino experiments may have interesting opportunities to explore both GUT and flavour physics in proton and neutron decays.

AB - We analyze nucleon decay modes in a no-scale supersymmetric flipped SU(5) GUT model, and contrast them with the predictions for proton decays via dimension-6 operators in a standard unflipped supersymmetric SU(5) GUT model. We find that these GUT models make very different predictions for the ratios Γ(p → π0μ+)/Γ(p → π0e+), Γ(p →π+ν¯)/Γ(p → π0e+), Γ(p → K0e+)/Γ(p → π0e+) and Γ(p → K0μ+)/Γ(p → π0μ+), and that predictions for the ratios Γ(p → π0μ+)/Γ(p → π0e+) and Γ(p →π+ν¯)/Γ(p → π0e+) also differ in variants of the flipped SU(5) model with normal- or inverse-ordered light neutrino masses. Upcoming large neutrino experiments may have interesting opportunities to explore both GUT and flavour physics in proton and neutron decays.

KW - Supersymmetry Phenomenology

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Proton decay: flipped vs. unflipped SU(5)

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