β-decay study within multireference density functional theory and beyond

Abstract: Pioneering study of Gamow-Teller (GT) and Fermi matrix elements (MEs) using no-coreconfiguration-interaction formalism rooted in multi-reference density functional theory is presented. After successful test performed for 6 He→ 6 Li β-decay, the model is applied to compute MEs in the sd-and pf -shell T =1/2 mirror nuclei. The calculated GT MEs and the isospin-symmetry-breaking corrections to the Fermi branch are found to be in a very good agreement with shell-model predictions in spite of fundamental difference… Show more

“…The flagship example concerns physical origin of the quenching effect of the weak axial coupling constant [for free-neutron decay g A = −1.2701 (25)], a subject of intense discussion since the first Gamow-Teller (GT) β-decay calculations were performed. The DFT-NCCI calculations in T = 1/2 mirror nuclei [8] somewhat contradict the statement that the quenching has its roots in a model space, and therefore support the two-body current based explanation, put forward in Refs. [13,14]; see also [15][16][17][18].…”

“…and 8 Li, 2 + g.s. β decays, paying special attention to the physical interpretation of particular peaks.…”

“…In this section we will investigate the structure and β-decay properties of very light nuclei 8 Be, 8 Li, and 8 He by using the DFT-NCCI framework. The p-shell nuclei offer an excellent playground to test, in particular, a configurationspace dependence of our scheme.…”

“…[8,35]. In order to account for β-decay strength distribution, the MR-DFT concept needs to be extended by including the states (1) projected from many Slater determinants ϕ j corresponding to different (multi)particle-(multi)hole excitations.…”

“…Bally and coworkers proposed a DFT-NCCI framework involving a Skyrme superfluid functional and applied it successfully to compute spectra and electromagnetic transition rates in 25 Mg [4]. Our group has developed a variant involving an unpaired Skyrme functional and a unique combination of angular-momentum and isospin projections and applied to calculate the spectra and β-decay rates in N ≈ Z nuclei from p-shell to medium mass nuclei around 62 Zn [5][6][7][8]. Recently, the DFT-NCCI method was applied to calculate spectra in neutron-rich 44 S and 64 Cr nuclei with the Gogny force [9,10], within the relativistic framework [11] in 54 Cr, or within the pairing-plus-quadrupole model in the magnesium chain [12].…”

Gamow-Teller response in the configuration space of a density-functional-theory–rooted no-core configuration-interaction model

“…The flagship example concerns physical origin of the quenching effect of the weak axial coupling constant [for free-neutron decay g A = −1.2701 (25)], a subject of intense discussion since the first Gamow-Teller (GT) β-decay calculations were performed. The DFT-NCCI calculations in T = 1/2 mirror nuclei [8] somewhat contradict the statement that the quenching has its roots in a model space, and therefore support the two-body current based explanation, put forward in Refs. [13,14]; see also [15][16][17][18].…”

“…and 8 Li, 2 + g.s. β decays, paying special attention to the physical interpretation of particular peaks.…”

“…In this section we will investigate the structure and β-decay properties of very light nuclei 8 Be, 8 Li, and 8 He by using the DFT-NCCI framework. The p-shell nuclei offer an excellent playground to test, in particular, a configurationspace dependence of our scheme.…”

“…[8,35]. In order to account for β-decay strength distribution, the MR-DFT concept needs to be extended by including the states (1) projected from many Slater determinants ϕ j corresponding to different (multi)particle-(multi)hole excitations.…”

“…Bally and coworkers proposed a DFT-NCCI framework involving a Skyrme superfluid functional and applied it successfully to compute spectra and electromagnetic transition rates in 25 Mg [4]. Our group has developed a variant involving an unpaired Skyrme functional and a unique combination of angular-momentum and isospin projections and applied to calculate the spectra and β-decay rates in N ≈ Z nuclei from p-shell to medium mass nuclei around 62 Zn [5][6][7][8]. Recently, the DFT-NCCI method was applied to calculate spectra in neutron-rich 44 S and 64 Cr nuclei with the Gogny force [9,10], within the relativistic framework [11] in 54 Cr, or within the pairing-plus-quadrupole model in the magnesium chain [12].…”

Gamow-Teller response in the configuration space of a density-functional-theory–rooted no-core configuration-interaction model

Neutrino-less double beta decay experiments

Spectroscopy of proton-rich 79Zr: Mirror energy differences in the highly-deformed fpg shell