Single- and Double-Charge Exchange Reactions and Nuclear Matrix Element for Double-Beta Decay

Single- and Double-Charge Exchange Reactions and Nuclear Matrix Element for Double-Beta Decay

Neutrino properties such as the Majorana nature and the masses, which go beyond the standard model, are derived from the experimental double-beta decay (DBD) rate by using the DBD nuclear matrix element (NME). Theoretical evaluations for the NME, however, are very difficult. Single-charge exchange r...

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Veröffentlicht in:Universe (Basel) 2022-09, Vol.8 (9), p.457
1. Verfasser: Ejiri, Hiroyasu
Format: Artikel
Sprache:eng
Schlagworte:
Beta decay
Decay
Energy
isospin spin correlations
Kinematics
neutrino mass
neutrinoless double-beta decay
Neutrinos
nuclear matrix element
quenching of the weak coupling gA
single- and double-charge exchange reactions
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Zusammenfassung:Neutrino properties such as the Majorana nature and the masses, which go beyond the standard model, are derived from the experimental double-beta decay (DBD) rate by using the DBD nuclear matrix element (NME). Theoretical evaluations for the NME, however, are very difficult. Single-charge exchange reactions (SCERs) and double-charge exchange reactions (DCERs) are used to study nuclear isospin (τ) and spin (σ) correlations involved in the DBD NME and to theoretically calculate the DBD NME. Single and double τσ NMEs for quasi-particle states are studied by SCERs and DCER. They are found to be reduced with respect to the quasi-particle model NMEs due to the τσ correlations. The impact of the SCER- and DCER-NMEs on the DBD NME is discussed.
ISSN:2218-1997
2218-1997
DOI:10.3390/universe8090457