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Theoretical Constraints on the Vacuum Oscillation Solution to the Solar Neutrino Problem
The vacuum oscillation (VO) solution to the solar anomaly requires an extremely small neutrino mass splitting, Delta m^2_{sol}\leq 10^{-10} eV^2. We study under which circumstances this small splitting (whatever its origin) is or is not spoiled by radiative corrections. The results depend dramatical...
| Autores principales: | , , , |
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| Lenguaje: | eng |
| Publicado: |
1999
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1088/1126-6708/1999/09/015 http://cds.cern.ch/record/389544 |
| _version_ | 1780893673298329600 |
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| author | Casas, J.A. Espinosa, J.R. Ibarra, A. Navarro, I. |
| author_facet | Casas, J.A. Espinosa, J.R. Ibarra, A. Navarro, I. |
| author_sort | Casas, J.A. |
| collection | CERN |
| description | The vacuum oscillation (VO) solution to the solar anomaly requires an extremely small neutrino mass splitting, Delta m^2_{sol}\leq 10^{-10} eV^2. We study under which circumstances this small splitting (whatever its origin) is or is not spoiled by radiative corrections. The results depend dramatically on the type of neutrino spectrum. If m_1^2 \sim m_2^2 \geq m_3^2, radiative corrections always induce too large mass splittings. Moreover, if m_1 and m_2 have equal signs, the solar mixing angle is driven by the renormalization group evolution to very small values, incompatible with the VO scenario (however, the results could be consistent with the small-angle MSW scenario). If m_1 and m_2 have opposite signs, the results are analogous, except for some small (though interesting) windows in which the VO solution may be natural with moderate fine-tuning. Finally, for a hierarchical spectrum of neutrinos, m_1^2 << m_2^2 << m_3^2, radiative corrections are not dangerous, and therefore this scenario is the only plausible one for the VO solution. |
| id | cern-389544 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 1999 |
| record_format | invenio |
| spelling | cern-3895442023-03-12T06:03:38Zdoi:10.1088/1126-6708/1999/09/015http://cds.cern.ch/record/389544engCasas, J.A.Espinosa, J.R.Ibarra, A.Navarro, I.Theoretical Constraints on the Vacuum Oscillation Solution to the Solar Neutrino ProblemParticle Physics - PhenomenologyThe vacuum oscillation (VO) solution to the solar anomaly requires an extremely small neutrino mass splitting, Delta m^2_{sol}\leq 10^{-10} eV^2. We study under which circumstances this small splitting (whatever its origin) is or is not spoiled by radiative corrections. The results depend dramatically on the type of neutrino spectrum. If m_1^2 \sim m_2^2 \geq m_3^2, radiative corrections always induce too large mass splittings. Moreover, if m_1 and m_2 have equal signs, the solar mixing angle is driven by the renormalization group evolution to very small values, incompatible with the VO scenario (however, the results could be consistent with the small-angle MSW scenario). If m_1 and m_2 have opposite signs, the results are analogous, except for some small (though interesting) windows in which the VO solution may be natural with moderate fine-tuning. Finally, for a hierarchical spectrum of neutrinos, m_1^2 << m_2^2 << m_3^2, radiative corrections are not dangerous, and therefore this scenario is the only plausible one for the VO solution.The vacuum oscillation (VO) solution to the solar anomaly requires an extremely small neutrino mass splitting, Delta m^2_{sol}\leq 10^{-10} eV^2. We study under which circumstances this small splitting (whatever its origin) is or is not spoiled by radiative corrections. The results depend dramatically on the type of neutrino spectrum. If m_1^2 \sim m_2^2 \geq m_3^2, radiative corrections always induce too large mass splittings. Moreover, if m_1 and m_2 have equal signs, the solar mixing angle is driven by the renormalization group evolution to very small values, incompatible with the VO scenario (however, the results could be consistent with the small-angle MSW scenario). If m_1 and m_2 have opposite signs, the results are analogous, except for some small (though interesting) windows in which the VO solution may be natural with moderate fine-tuning. Finally, for a hierarchical spectrum of neutrinos, m_1^2 << m_2^2 << m_3^2, radiative corrections are not dangerous, and therefore this scenario is the only plausible one for the VO solution.hep-ph/9906281IEM-FT-195-99CERN-TH-99-171IFT-UAM-CSIC-99-23CERN-TH-99-171oai:cds.cern.ch:3895441999-06-08 |
| spellingShingle | Particle Physics - Phenomenology Casas, J.A. Espinosa, J.R. Ibarra, A. Navarro, I. Theoretical Constraints on the Vacuum Oscillation Solution to the Solar Neutrino Problem |
| title | Theoretical Constraints on the Vacuum Oscillation Solution to the Solar Neutrino Problem |
| title_full | Theoretical Constraints on the Vacuum Oscillation Solution to the Solar Neutrino Problem |
| title_fullStr | Theoretical Constraints on the Vacuum Oscillation Solution to the Solar Neutrino Problem |
| title_full_unstemmed | Theoretical Constraints on the Vacuum Oscillation Solution to the Solar Neutrino Problem |
| title_short | Theoretical Constraints on the Vacuum Oscillation Solution to the Solar Neutrino Problem |
| title_sort | theoretical constraints on the vacuum oscillation solution to the solar neutrino problem |
| topic | Particle Physics - Phenomenology |
| url | https://dx.doi.org/10.1088/1126-6708/1999/09/015 http://cds.cern.ch/record/389544 |
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