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Modular invariance faces precision neutrino data
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We analyze a modular invariant model of lepton masses, with neutrino
masses originating either from the Weinberg operator or from the seesaw.
The constraint provided by modular invariance is so strong that neutrino
mass ratios, lepton mixing angles and Dirac/Majorana phases do not
depend on any Lagrangian parameter. They only depend on the vacuum of
the theory, parametrized in terms of a complex modulus and a real field.
Thus eight measurable quantities are described by the three vacuum
parameters, whose optimization provides an excellent fit to data for the
Weinberg operator and a good fit for the seesaw case. Neutrino masses
from the Weinberg operator (seesaw) have inverted (normal) ordering.
Several sources of potential corrections, such as higher dimensional
operators, renormalization group evolution and supersymmetry breaking
effects, are carefully discussed and shown not to affect the predictions
under reasonable conditions.
Title: Modular invariance faces precision neutrino data
Description:
We analyze a modular invariant model of lepton masses, with neutrino
masses originating either from the Weinberg operator or from the seesaw.
The constraint provided by modular invariance is so strong that neutrino
mass ratios, lepton mixing angles and Dirac/Majorana phases do not
depend on any Lagrangian parameter.
They only depend on the vacuum of
the theory, parametrized in terms of a complex modulus and a real field.
Thus eight measurable quantities are described by the three vacuum
parameters, whose optimization provides an excellent fit to data for the
Weinberg operator and a good fit for the seesaw case.
Neutrino masses
from the Weinberg operator (seesaw) have inverted (normal) ordering.
Several sources of potential corrections, such as higher dimensional
operators, renormalization group evolution and supersymmetry breaking
effects, are carefully discussed and shown not to affect the predictions
under reasonable conditions.
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