Verifiable radiative seesaw mechanism of neutrino mass and dark matter

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14 April 2006

journal article
research article
Published by American Physical Society (APS) in Physical Review D

Vol. 73 (7) , 077301
https://doi.org/10.1103/physrevd.73.077301

Abstract

Neutrino oscillations have established that neutrinos

ν_{i}

have very small masses. Theoretically, they are believed to arise through the famous seesaw mechanism from their very heavy and unobservable Dirac mass partners

N_{i}

. It is proposed here in a new minimal extension of the standard model with a second scalar doublet (

η^{+}

η^{0}

) that the seesaw mechanism is actually radiative, and that

N_{i}

and (

η^{+}

η^{0}

) are experimentally observable at the forthcoming Large Hadron Collider, with the bonus that the lightest of them is also an excellent candidate for the dark matter of the Universe.

Keywords

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This publication has 14 references indexed in Scilit:

Connection between the neutrino seesaw mechanism and properties of the Majorana neutrino mass matrix
Physical Review D, 2005
$A_{4}$ symmetry and neutrinos with very different masses
Physical Review D, 2004
Scalar dark matter candidates
Nuclear Physics B, 2004
Model for neutrino masses and dark matter
Physical Review D, 2003
Underlying A4 symmetry for the neutrino mass matrix and the quark mixing matrix
Physics Letters B, 2002
Softly broken $A_{4}$ symmetry for nearly degenerate neutrino masses
Physical Review D, 2001
Naturally Small Seesaw Neutrino Mass with No New Physics Beyond the TeV Scale
Physical Review Letters, 2001
Pathways to Naturally Small Neutrino Masses
Physical Review Letters, 1998
Neutrino Mass and Spontaneous Parity Nonconservation
Physical Review Letters, 1980
Baryon- and Lepton-Nonconserving Processes
Physical Review Letters, 1979