Neutrino masses, leptonic flavor mixing, and muon (g−2) in the seesaw model with the gauge symmetry * - INSPIRE

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Neutrino masses, leptonic flavor mixing, and muon (g−2) in the seesaw model with the gauge symmetry *

Shun Zhou
(
- Beijing, Inst. High Energy Phys. and
- Beijing, GUCAS
)

Apr 14, 2021

23 pages

Published in:

Chin.Phys.C 46 (2022) 1, 011001,
Chin.Phys.C 46 (2022) 011001

Published: 2022

e-Print:

2104.06858 [hep-ph]

DOI:

10.1088/1674-1137/ac2a25

View in:

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Abstract: (IOP)

The latest measurements of the anomalous muon magnetic moment show a discrepancy between the theoretical prediction of the Standard Model and the experimental observations. To account for such a discrepancy, we consider a possible extension of the type-(I+II) seesaw model for neutrino mass generation with a gauged symmetry. By explicitly constructing an economical model with only one extra scalar singlet, we demonstrate that the gauge symmetry and its spontaneous breaking are crucial not only for explaining the muon result but also for generating the neutrino masses and leptonic flavor mixing. Various phenomenological implications and experimental constraints on the model parameters are also discussed.

Note:

23 pages, 3 figures, 1 table, typos corrected, more references added, to appear in Chin. Phys. C

neutrino masses
anomalous muon magnetic moment
U(1) gauge symmetry
symmetry: gauge
neutrino: mass
flavor: mixing
neutrino: mass generation
muon: magnetic moment
singlet: scalar
seesaw model

References(143)

Figures(3)

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(
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)
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(
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)
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(
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)

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(
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(
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et al.

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(
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)
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(
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)
,
Maarten Golterman
(
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)
,
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(
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et al.

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(
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(
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)
,
Pablo Sanchez-Puertas
(
- Charles U.
)

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[25]

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Gilberto Colangelo
(
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)
,
Martin Hoferichter
(
- Washington U., Seattle and
- Santa Barbara, KITP
)
,
Massimiliano Procura
(
- CERN
)
,
Peter Stoffer
(
- Bonn U., HISKP and
- U. Bonn, Phys. Inst., BCTP and
- UC, San Diego
)

- JHEP 04 (2017) 161
•
e-Print:
- 1702.07347
•
DOI:
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