2024-03-28T22:36:23Zhttp://digital.csic.es/dspace-oai/requestoai:digital.csic.es:10261/91522016-03-04T10:46:30Zcom_10261_61com_10261_4col_10261_314
10261/9152
10.1088/0034-4885/70/11/R02
8269
Theory of neutrinos: a white paper
Institute of Physics Publishing
2007
artÃculo
Mohapatra, R. N.
Antusch, S.
Babu, K. S.
Barenboim, Gabriela
Chen, M. C.
De Gouvea, A.
De Holanda, P.
Dutta, B.
Grossman, Y.
Joshipura, A.
Kayser, B.
Kersten, J.
Keum, Y. Y.
King, Stephen F.
Langacker, P.
Lindner, M.
Loinaz, W.
Masina, I.
Mocioiu, I.
Mohanty, S.
Murayama, H.
Pascoli, S.
Petcov, S. T.
Pilaftsis, Apostolos
Ramond, P.
Ratz, M.
Rodejohann, W.
Shrock, R.
Takeuchi, T.
Underwood, T.
Wolfenstein, L.
Double beta decay
Lepton-flavor violation
Right-handed neutrino
Large extra dimensions
Electroweak symmetry-breaking
See-saw mechanism
Supersymmetric Standard Model
Anomalous magnetic moment
Heavy Majorana neutrinos
Electric-dipole moments
2007-10-11
111 pages, 23 figures.-- ISI Article Identifier: 000250727500002.-- ArXiv pre-print available at: http://arxiv.org/abs/hep-ph/0510213
Printed version published in Nov 2007.
This paper is a review of the present status of neutrino mass physics, which grew out of an APS sponsored study of neutrinos in 2004. After a discussion of the present knowledge of neutrino masses and mixing and some popular ways to probe the new physics implied by recent data, it summarizes what can be learned about neutrino interactions as well as the nature of new physics beyond the Standard Model from the various proposed neutrino experiments. The intriguing possibility that neutrino mass physics may be at the heart of our understanding of a long standing puzzle of cosmology, i.e. the origin of matter-antimatter asymmetry is also discussed.
openAccess
Reports on Progress in Physics
2007
70
1757
1867