Running of radiative neutrino masses: the scotogenic model

A bstract We study the renormalization group equations of Ma’s scotogenic model, which generates an active neutrino mass at 1-loop level. In addition to other benefits, the main advantage of the mechanism exploited in this model is to lead to a natural loop-suppression of the neutrino mass, and ther...

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Bibliographic Details
Published in:The journal of high energy physics 2012-07, Vol.2012 (7), p.084, Article 84
Main Authors: Bouchand, Romain, Merle, Alexander
Format: Article
Language:English
Subjects:
Classical and Quantum Gravitation
Elementary Particles
Flavor (particle physics)
High energy physics
Mass matrix
Mathematical models
Neutrinos
Parameter modification
Physics
Physics and Astronomy
Quantum Field Theories
Quantum Field Theory
Quantum Physics
Relativity Theory
String Theory
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Summary:A bstract We study the renormalization group equations of Ma’s scotogenic model, which generates an active neutrino mass at 1-loop level. In addition to other benefits, the main advantage of the mechanism exploited in this model is to lead to a natural loop-suppression of the neutrino mass, and therefore to an explanation for its smallness. However, since the structure of the neutrino mass matrix is altered compared to the ordinary type I seesaw case, the corresponding running is altered as well. We have derived the full set of renormalization group equations for the scotogenic model which, to our knowledge, had not been presented previously in the literature. This set of equations reflects some interesting structural properties of the model, and it is an illustrative example for how the running of neutrino parameters in radiative models is modified compared to models with tree-level mass generation. We also study a simplified numerical example to illustrate some general tendencies of the running. Interestingly, the structure of the RGEs can be exploited such that a bimaximal leptonic mixing pattern at the high-energy scale is translated into a valid mixing pattern at low energies, featuring a large value of θ 13 . This suggests very interesting connections to flavour symmetries.
ISSN:1029-8479
1126-6708
1029-8479
DOI:10.1007/JHEP07(2012)084