LAM, Yi Hua; SMIRNOVA, Nadezda A

doi:10.22323/1.281.0042

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LAM, Yi Hua

SMIRNOVA, Nadezda A
Centre d'Etudes Nucléaires de Bordeaux Gradignan [CENBG]

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PoS, PoS, 2016-09-11, Adelaide. 2017, vol. INPC2016, p. 042

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The study of β-delayed decay of nuclei near the proton drip line provides a powerful tool to understand the role of isospin-symmetry breaking in the structure of proton-rich nuclei. A β-delayed process involves first a β-decay of a precursor, with a large superallowed branch populating the isobaric analogue state (IAS), followed by emission of charged particles (protons, diprotons, alpha particles, clusters) or gamma radiation. The typical Q value systematics of these decays is such that the second-stage proton (or multi-particle) emission from the IAS is isospin-forbidden, whereas decay from Gamow-Teller populated states is consistent with the isospin-symmetry limit. The experimental data on isospin-forbidden proton-emission branching ratios provides a stringent test for charge-dependent terms of the nuclear Hamiltonian. In this contribution, we present a shell-model study of the partial-decay schemes of some recently measured very neutron deficient silicone isotopes, e.g., 23Si, 24Si, 25Si, as well as a p f-shell precursor, 53Ni. We use a microscopic isospin-nonconserving (INC) Hamiltonian which allows us to account for the isospin-symmetry breaking consistently in all physics processes involved in the whole β-delayed decay scheme, namely, β-decay, proton emission and electromagnetic de-excitation. Our shell-model results successfully, though not fully, match with the key features of these experimental partial-decay schemes.< Réduire

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Theoretical Description Of Beta-delayed Proton Emission Of Proton-rich sd- And pf- Shell Nuclei

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