Double beta decay in deformed nuclei

The pseudo SU(3) approach has been used to describe many low-lying rotational bands, as well as BE(2) and B(M1) intensities in rare earth and actinide nuclei, both with even-even and odd-mass numbers . The double beta half lives of some of these parent nuclei to the ground and excited states of the...

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Bibliographic Details
Published in:arXiv.org 2001-09
Main Authors: Hirsch, Jorge G, Ceron, Victoria E, Castanos, Octavio, Hess, Peter O, Civitarese, Osvaldo
Format: Article
Language:English
Subjects:
Beta decay
Deformation
Electron capture
Gadolinium isotopes
Half-life
Neutrinos
Nuclei
Occupations
Perturbation theory
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Summary:The pseudo SU(3) approach has been used to describe many low-lying rotational bands, as well as BE(2) and B(M1) intensities in rare earth and actinide nuclei, both with even-even and odd-mass numbers . The double beta half lives of some of these parent nuclei to the ground and excited states of the daughter ones were evaluated for the two and zero neutrino emitting modes using the pseudo SU(3) scheme. The predictions were in good agreement with the available experimental data for 150Nd and 238U. The double electron capture half-lives of 156Dy, 162Er and 168Yb were also studied using the same formalism. The first nuclei was found to be the best candidate for experimental detection, with a half-life of 10^24 yr to the first excited 0+ state in 156Gd. There are strong selection rules which restrict the two neutrino mode of the double beta decay in some other nuclei, including 160Gd. Experimental limits for the double beta decay of 160Gd have been reported . Recently it was argued that the strong cancellation of the 2nu mode in the double beta decay of 160Gd would suppress the background for the detection of the 0nu mode. In the present contribution we extend the previous research evaluating the double beta half lives of 160Gd using the pseudo SU(3) model. While the 2nu mode is forbidden when the most probable occupations are considered, states with different occupation numbers can be mixed through the pairing interaction. The amount of this mixing is evaluated using perturbation theory. The possibility of observing the double beta decay in 160Gd is discussed for both the 2nu and 0nu modes.
ISSN:2331-8422
DOI:10.48550/arxiv.0109057