Consistent large-scale shell-model analysis of the two-neutrino ββ and single β branchings in 48Ca and 96Zr
Two-neutrino double-beta-decay matrix elements M2ν and single beta-decay branching ratios were calculated for 48Ca and 96Zr in the interacting nuclear shell model using large single-particle valence spaces with well-tested two-body Hamiltonians. For 48Ca the matrix element M2ν=0.0511 is obtained, wh...
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2020-03-01
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| Series: | Physics Letters B |
| Online Access: | http://www.sciencedirect.com/science/article/pii/S0370269319309141 |
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doaj-d2ca11c4a7f347b0b3e496f9c74231aa2020-11-25T01:31:11ZengElsevierPhysics Letters B0370-26932020-03-01802Consistent large-scale shell-model analysis of the two-neutrino ββ and single β branchings in 48Ca and 96ZrJoel Kostensalo0Jouni Suhonen1Corresponding author.; University of Jyvaskyla, Department of Physics, P. O. Box 35, FI-40014, FinlandUniversity of Jyvaskyla, Department of Physics, P. O. Box 35, FI-40014, FinlandTwo-neutrino double-beta-decay matrix elements M2ν and single beta-decay branching ratios were calculated for 48Ca and 96Zr in the interacting nuclear shell model using large single-particle valence spaces with well-tested two-body Hamiltonians. For 48Ca the matrix element M2ν=0.0511 is obtained, which is 5.5% smaller than the previously reported value of 0.0539. For 96Zr this work reports the first large-scale shell-model calculation of the nuclear matrix element, yielding a value M2ν=0.0747 with extreme single-state dominance. These matrix elements, combined with the available ββ-decay half-life data, yield effective values of the weak axial coupling which in turn are used to produce in a consistent way the β-decay branching ratios of (7.5±2.8)% for 48Ca and (18.4±0.09)% for 96Zr. These are larger than obtained in previous studies, implying that the detection of the β-decay branches could be possible in dedicated experiments sometime in the (near) future. Keywords: Double-beta decay, Axial-vector coupling, 48Ca, 96Zr, Shell model, Matrix elementshttp://www.sciencedirect.com/science/article/pii/S0370269319309141 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Joel Kostensalo Jouni Suhonen |
| spellingShingle |
Joel Kostensalo Jouni Suhonen Consistent large-scale shell-model analysis of the two-neutrino ββ and single β branchings in 48Ca and 96Zr Physics Letters B |
| author_facet |
Joel Kostensalo Jouni Suhonen |
| author_sort |
Joel Kostensalo |
| title |
Consistent large-scale shell-model analysis of the two-neutrino ββ and single β branchings in 48Ca and 96Zr |
| title_short |
Consistent large-scale shell-model analysis of the two-neutrino ββ and single β branchings in 48Ca and 96Zr |
| title_full |
Consistent large-scale shell-model analysis of the two-neutrino ββ and single β branchings in 48Ca and 96Zr |
| title_fullStr |
Consistent large-scale shell-model analysis of the two-neutrino ββ and single β branchings in 48Ca and 96Zr |
| title_full_unstemmed |
Consistent large-scale shell-model analysis of the two-neutrino ββ and single β branchings in 48Ca and 96Zr |
| title_sort |
consistent large-scale shell-model analysis of the two-neutrino ββ and single β branchings in 48ca and 96zr |
| publisher |
Elsevier |
| series |
Physics Letters B |
| issn |
0370-2693 |
| publishDate |
2020-03-01 |
| description |
Two-neutrino double-beta-decay matrix elements M2ν and single beta-decay branching ratios were calculated for 48Ca and 96Zr in the interacting nuclear shell model using large single-particle valence spaces with well-tested two-body Hamiltonians. For 48Ca the matrix element M2ν=0.0511 is obtained, which is 5.5% smaller than the previously reported value of 0.0539. For 96Zr this work reports the first large-scale shell-model calculation of the nuclear matrix element, yielding a value M2ν=0.0747 with extreme single-state dominance. These matrix elements, combined with the available ββ-decay half-life data, yield effective values of the weak axial coupling which in turn are used to produce in a consistent way the β-decay branching ratios of (7.5±2.8)% for 48Ca and (18.4±0.09)% for 96Zr. These are larger than obtained in previous studies, implying that the detection of the β-decay branches could be possible in dedicated experiments sometime in the (near) future. Keywords: Double-beta decay, Axial-vector coupling, 48Ca, 96Zr, Shell model, Matrix elements |
| url |
http://www.sciencedirect.com/science/article/pii/S0370269319309141 |
| work_keys_str_mv |
AT joelkostensalo consistentlargescaleshellmodelanalysisofthetwoneutrinobbandsinglebbranchingsin48caand96zr AT jounisuhonen consistentlargescaleshellmodelanalysisofthetwoneutrinobbandsinglebbranchingsin48caand96zr |
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