Superallowed 0+ → 0+ nuclear β decays: 2020 critical survey, with implications for Vud and CKM unitarity

A new critical survey of all half-life, decay-energy and branching-ratio measurements related to 23 superallowed 0+ → 0+ β decays is presented. Included are 222 individual measurements of comparable precision obtained from 174 published references. Compared with our last survey in 2015, we have adde...

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Bibliographic Details
Published in:Physical review. C 2020-10, Vol.102 (4)
Main Authors: Hardy, J. C., Towner, I. S.
Format: Article
Language:English
Subjects:
Beta Decay
Binding energy & masses
Electroweak interactions in nuclear physics
Neutrinos
NUCLEAR PHYSICS AND RADIATION PHYSICS
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Summary:A new critical survey of all half-life, decay-energy and branching-ratio measurements related to 23 superallowed 0+ → 0+ β decays is presented. Included are 222 individual measurements of comparable precision obtained from 174 published references. Compared with our last survey in 2015, we have added results from 28 new publications and eliminated an approximately equal number whose results have been superseded by much more precise modern data. We obtain world-average ft values for each of the 21 transitions that have a complete set of data, then apply radiative and isospin-symmetry-breaking corrections to extract “corrected” Ft values. Fifteen of these Ft values now have a precision of 0.3% or better and all take the same value within statistics, as expected from conservation of the vector current. Their average, Ft¯, when combined with the muon lifetime, yields the up-down quark-mixing element of the Cabibbo-Kobayashi-Maskawa matrix, Vud = 0.97373 ± 0.00031. This is lower than our 2015 result by one standard deviation and its uncertainty is increased by 50%. This is a consequence, not of any shifts in the experimental data, but of new calculations for the radiative corrections. The lower Vud value now leads to greater tension in the top-row test of unitarity in the CKM matrix. Updates in experimental data have independently led to a factor-of-two tighter limit being set on the possible existence of a scalar interaction. In conclusion, the new limit on Fierz interference is bF ≤ 0.0033 at the 90% confidence level.
ISSN:2469-9985
2469-9993
DOI:10.1103/PhysRevC.102.045501