Nuclear Data Sheets for A = 22

Basunia, M. S.

doi:10.1016/j.nds.2015.07.002

Cited by 70 publications

(122 citation statements)

References 285 publications

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“…Additionally, the excitation energy for the IAS state in 22 Na is taken from the evaluation of Ref. [40]. Using the prescription of Ref.…”

mentioning

confidence: 99%

High-precision QEC -value measurement of the superallowed β+ emitter Mg22 and an ab

Reiter
¹
,

Leach
²
,

Drozdowski
³

et al. 2017

Phys. Rev. C

11
5
22
0

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“…Additionally, the excitation energy for the IAS state in 22 Na is taken from the evaluation of Ref. [40]. Using the prescription of Ref.…”

mentioning
confidence: 99%

High-precision QEC -value measurement of the superallowed β+ emitter Mg22 and an ab
Reiter
¹
,
Leach
²
,
Drozdowski
³

et al. 2017
Phys. Rev. C
11
5
22
0
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“…86 The Q-value of this decay is known quite accurately. 87 An old measurement of the β spectrum has been reported in. 88 The β − decay of 60 Co is a common pollutant in the environment and in Ge-based experiments.…”

Section: Contaminants In Rare-events Searchesmentioning
confidence: 99%

Beta-spectrum shapes of forbidden β decays
Kostensalo
¹
,
Suhonen
²

2018
Int. J. Mod. Phys. A
12
0
18
0
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The neutrinoless ββ decay of atomic nuclei continues to attract fervent interest due to its potential to confirm the possible Majorana nature of the neutrino, and thus the nonconservation of the lepton number. At the same time the direct dark-matter experiments are looking for WIMPs (weakly interacting massive particles) through their scattering on nuclei. The neutrino-oscillation experiments on reactor antineutrinos base their analyses on speculations of β-spectrum shapes of nuclear decays, thus leading to the notorious "reactor antineutrino anomaly". In all these experimental efforts one encounters the problem of β-spectrum shapes of forbidden β decays, either as unwanted backgrounds or unknown components in the analyses of data. In this work the problem of spectrum shapes is discussed and illustrated with a set of selected examples. The relation of the β-spectrum shapes to the problem of the effective value of the weak axial-vector coupling strength g A and the enhancement of the axial-charge matrix element is also pointed out.

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“…For the assigned partner states, the initial and final states are described by the S = 0, T = 1 nn and S = 1, T = 0 pn pairs of valence two nucleons around the 2α core, respectively. It means that the strong data are taken from [13].…”

Section: B Gamow-teller Transitions and Su (4)-symmetrymentioning
confidence: 99%

“…For each band, calculated and experimental spectra are shown in the left and right, respectively. The experimental data are taken from[13]. The low-lying spectra of 22 Ne in the K = 0, 2 bands.…”

mentioning
confidence: 99%

Low-energy Gamow-Teller transitions in deformed N=Z odd-odd nuclei
Morita
¹
,
Kanada-En’yo
²

2018
Phys. Rev. C
1
0
0
0
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We have investigated the Gamow-Teller transitions from 22 Ne to 22 Na by applying the isospin projected antisymmetrized molecular dynamics combined with generator coordinate method. We have found that the GT strength from A Z(J π T ) = 22 Ne(0 + 1 1) is fragmented into two final states 22 Na(1 + 1,2 0), which belong to K = 0 and K = 1 bands constructed by a prolately deformed 20 Ne core with a S = 1 proton-neutron (pn) pair. Coupling of the intrinsic-spin of the pn pair with the core deformation play an important role in the GT fragmentation. The symmetry breaking in the intrinsic-spin rotation leads to the SU (4)-symmetry breaking of the N N pair and causes the GT fragmentation. We have compared the features of the GT transitions with those for 10 Be → 10 B and discuss the link of the SU (4)-symmetry and the GT fragmentation in the deformed systems.

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Nuclear Data Sheets for A = 22

Cited by 70 publications

References 285 publications

High-precision QEC -value measurement of the superallowed β+ emitter Mg22 and an ab

High-precision QEC -value measurement of the superallowed β+ emitter Mg22 and an ab

Beta-spectrum shapes of forbidden β decays

Low-energy Gamow-Teller transitions in deformed N=Z odd-odd nuclei

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