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The calorimetric spectrum of the electron-capture decay of $^{163}$Ho. The spectral endpoint region
The electron-neutrino mass (or masses and mixing angles) may be directly measurable in weak electron-capture decays. The favoured experimental technique is "calorimetric". The optimal nuclide is $^{163}$Ho, and several experiments (ECHo, HOLMES and NuMECS) are currently studying its decay....
| Autores principales: | , |
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| Lenguaje: | eng |
| Publicado: |
2016
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1007/JHEP05(2016)015 http://cds.cern.ch/record/2125527 |
| _version_ | 1780949636120313856 |
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| author | De Rújula, A. Lusignoli, M. |
| author_facet | De Rújula, A. Lusignoli, M. |
| author_sort | De Rújula, A. |
| collection | CERN |
| description | The electron-neutrino mass (or masses and mixing angles) may be directly measurable in weak electron-capture decays. The favoured experimental technique is "calorimetric". The optimal nuclide is $^{163}$Ho, and several experiments (ECHo, HOLMES and NuMECS) are currently studying its decay. The most relevant range of the calorimetric-energy spectrum extends for the last few hundred eV below its endpoint. It has not yet been well measured. We explore the theory, mainly in the cited range, of electron capture in $^{163}$Ho decay. A so far neglected process turns out to be most relevant: electron-capture accompanied by the shake-off of a second electron. Our two main conclusions are very encouraging: the counting rate close to the endpoint may be more than an order of magnitude larger than previously expected; the "pile-up" problem may be significantly reduced. |
| id | cern-2125527 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2016 |
| record_format | invenio |
| spelling | cern-21255272022-08-10T12:37:52Zdoi:10.1007/JHEP05(2016)015http://cds.cern.ch/record/2125527engDe Rújula, A.Lusignoli, M.The calorimetric spectrum of the electron-capture decay of $^{163}$Ho. The spectral endpoint regionParticle Physics - PhenomenologyOther Fields of PhysicsNuclear Physics - TheoryParticle Physics - PhenomenologyThe electron-neutrino mass (or masses and mixing angles) may be directly measurable in weak electron-capture decays. The favoured experimental technique is "calorimetric". The optimal nuclide is $^{163}$Ho, and several experiments (ECHo, HOLMES and NuMECS) are currently studying its decay. The most relevant range of the calorimetric-energy spectrum extends for the last few hundred eV below its endpoint. It has not yet been well measured. We explore the theory, mainly in the cited range, of electron capture in $^{163}$Ho decay. A so far neglected process turns out to be most relevant: electron-capture accompanied by the shake-off of a second electron. Our two main conclusions are very encouraging: the counting rate close to the endpoint may be more than an order of magnitude larger than previously expected; the "pile-up" problem may be significantly reduced.The electron-neutrino mass (or masses and mixing angles) may be directly measurable in weak electron-capture decays. The favoured experimental technique is “calorimetric”. The optimal nuclide is$^{163}$Ho, and several experiments (ECHo, HOLMES and NuMECS) are currently studying its decay. The most relevant range of the calorimetric-energy spectrum extends for the last few hundred eV below its endpoint. It has not yet been well measured. We explore the theory, mainly in the cited range, of electron capture in$^{163}$Ho decay. A so far neglected process turns out to be most relevant: electron-capture accompanied by the shake-off of a second electron. Our two main conclusions are very encouraging: the counting rate close to the endpoint may be more than an order of magnitude larger than previously expected, the “pile-up” problem may be significantly reduced.The electron-neutrino mass (or masses and mixing angles) may be directly measurable in weak electron-capture decays. The favoured experimental technique is "calorimetric". The optimal nuclide is $^{163}$Ho, and several experiments (ECHo, HOLMES and NuMECS) are currently studying its decay. The most relevant range of the calorimetric-energy spectrum extends for the last few hundred eV below its endpoint. It has not yet been well measured. We explore the theory, mainly in the cited range, of electron capture in $^{163}$Ho decay. A so far neglected process turns out to be most relevant: electron-capture accompanied by the shake-off of a second electron. Our two main conclusions are very encouraging: the counting rate close to the endpoint may be more than an order of magnitude larger than previously expected; the "pile-up" problem may be significantly reduced.arXiv:1601.04990oai:cds.cern.ch:21255272016-01-19 |
| spellingShingle | Particle Physics - Phenomenology Other Fields of Physics Nuclear Physics - Theory Particle Physics - Phenomenology De Rújula, A. Lusignoli, M. The calorimetric spectrum of the electron-capture decay of $^{163}$Ho. The spectral endpoint region |
| title | The calorimetric spectrum of the electron-capture decay of $^{163}$Ho. The spectral endpoint region |
| title_full | The calorimetric spectrum of the electron-capture decay of $^{163}$Ho. The spectral endpoint region |
| title_fullStr | The calorimetric spectrum of the electron-capture decay of $^{163}$Ho. The spectral endpoint region |
| title_full_unstemmed | The calorimetric spectrum of the electron-capture decay of $^{163}$Ho. The spectral endpoint region |
| title_short | The calorimetric spectrum of the electron-capture decay of $^{163}$Ho. The spectral endpoint region |
| title_sort | calorimetric spectrum of the electron-capture decay of $^{163}$ho. the spectral endpoint region |
| topic | Particle Physics - Phenomenology Other Fields of Physics Nuclear Physics - Theory Particle Physics - Phenomenology |
| url | https://dx.doi.org/10.1007/JHEP05(2016)015 http://cds.cern.ch/record/2125527 |
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