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Paper detail

Study of a tri-direct littlest seesaw model at MOMENT

The flavour symmetry succeeds in explaining the current global fit results. Flavour-symmetry models can be tested by the future experiments that improve the precision of neutrino oscillation parameters, \textit{such as} the MuOn-decay MEdium baseline NeuTrino beam experiment (MOMENT). In this work, we consider tri-direct littlest seesaw (TDLS) models for a case study, and analyze how much MOMENT can extend our knowledge on the TDLS model. We find that measurements of $θ_{23}$ and $δ$ are crucial for MOMENT to exclude the model at more than $5σ$ confidence level, if the best fit values in the last global analysis result is confirmed. Moreover, the $3σ$ precision of model parameters can be improved at MOMENT by at least a factor of two. Finally, we project the surface at the $3σ$ confidence level from the model-parameter space to the oscillation-parameter space, and find the potential of MOMENT to observe the sum rule between $θ_{23}$ and $δ$ predicted by TDLS.

preprint2019arXivOpen access
Jian TangTseChun Wang
hep-exhep-ph
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Jian TangTseChun Wang

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