Phenomenology in the minimal cascade seesaw mechanism for neutrino masses

We make a comprehensive analysis of the phenomenology in the minimal version of the cascade seesaw mechanism for tiny neutrino masses. The seesaw mechanism induces, at tree level, a neutrino mass operator at dimension nine by introducing a quadruple scalar [Phi] of hypercharge unity and a quintuple...

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Bibliographic Details
Published in:Physical review. D, Particles, fields, gravitation, and cosmology Particles, fields, gravitation, and cosmology, 2014-06, Vol.89 (11), Article 115024
Main Authors: Ding, Ran, Han, Zhi-Long, Liao, Yi, Liu, Hong-Jun, Liu, Ji-Yuan
Format: Article
Language:English
Subjects:
Cascades
Cosmology
Couplings
Fermions
Neutrinos
Phenomenology
Scalars
Unity
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Summary:We make a comprehensive analysis of the phenomenology in the minimal version of the cascade seesaw mechanism for tiny neutrino masses. The seesaw mechanism induces, at tree level, a neutrino mass operator at dimension nine by introducing a quadruple scalar [Phi] of hypercharge unity and a quintuple fermion capital sigma of hypercharge zero. We work in a framework that handles the complicated Yukawa couplings without losing generality. All mixing matrices are essentially expressed in terms of the vacuum expectation value of the quadruple scalar [upsilon] sub([Phi]), a free complex parameter t, and known neutrino parameters. We show that the low-energy lepton-flavor-violating transitions of the charged leptons set strong constraints on the free parameters. The constraints have a significant impact on collider physics and are incorporated in our signal analysis at the LHC. We investigate the signatures of new particles by surveying potentially important channels. We find that the 4j2l super(+ or -) signal is the most important for the detection of scalars, and the 2l super(+ or -) 2l super(- or +) 2j, 3l super(+ or -) l super(- or +) 2j, and 3l super(+ or -) 2l super(- or +) + E sub(T) signals are quite promising for the fermions.
ISSN:1550-7998
1550-2368
DOI:10.1103/PhysRevD.89.115024