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Título : Radiative seesaw model : warm dark matter, collider signatures, and lepton flavor violating signals
Autor : Aristizabal Sierra, Diego
Kubo, Jisuke
Suematsu, Daijiro
Restrepo Quintero, Diego Alejandro
Zapata Noreña, Óscar Alberto
metadata.dc.subject.*: Balance radiativo
Colisionador
Leptons (nuclear physics)
Leptones (Física nuclear)
Fecha de publicación : 2009
Editorial : The American Physical Society
Citación : Aristizabal Sierra, D., Kubo, J., Suematsu, D., Restrepo Quintero, D. A., & Zapata Noreña O. (2009). Radiative seesaw model:Warm dark matter, collider signatures, and lepton flavor violating signals. Physical Review D. 79(013011), 1-10. DOI:10.1103/PhysRevD.79.013011
Resumen : ABSTRACT: Solar [1], atmospheric [2], and reactor [3] neutrino experiments have demonstrated that neutrinos have mass and nonzero mixing angles among the different generations. On the other hand, observations of the cosmic microwave background, primordial abundances of light elements, and large scale structure formation have firmly established that most of the mass of the Universe consists of dark matter (DM) [4]. These experimental results are at present the most important evidences for physics beyond the standard model. There are several ways in which neutrino masses can be generated. Certainly the best-known mechanism to generate small Majorana neutrino masses is the seesaw [5]. However, a large variety of models exists in which lepton number is broken near or at the electroweak scale. Examples are supersymmetric models with explicit or spontaneous breaking of R parity [6,7], models with Higgs triplets [8], pure radiative models at one-loop [9] or at two-loop [10] order, and models in which neutrino masses are induced by leptoquark interactions [11].
metadata.dc.identifier.eissn: 1550-7998
ISSN : 1550-2368
metadata.dc.identifier.doi: 10.1103/PhysRevD.79.013011
Aparece en las colecciones: Artículos de Revista en Ciencias Exactas y Naturales

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