References quoted in the XUNDL dataset: 10C 10B(10B,10BE):XUNDL-15
2 references found.
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Phys.Rev. C 105, 014314 (2022)
R.J.Charity, L.G.Sobotka, T.B.Webb, K.W.Brown
Two-proton decay from α-cluster states in 10C and 11N
NUCLEAR STRUCTURE 10C, 11N; analyzed 2p+2α for 10C and 3p+2α exit channels for two-proton decay and highly fragmented decay channels using invariant-mass data from four previous experiments at NSCL-MSU, and Texas A and M facility involving inelastic scattering, multinucleon knockout, and neutron-pickup reactions; deduced a number of democratic 2p emitters associated with α-cluster structure, Correlation plots for the two-proton decay of the second 3/2- state in 11N and second 0+ state in 10C. 10C; deduced levels, J, π, α-cluster states, rotational band built on the second 0+ (Hoyle) state with α-cluster molecular structure, prompt 2p decay from excited states, decay channels and their branching ratios, compared with level structure of mirror nucleus 10Be. 11N; deduced levels, J, π, Γ, molecular band built on the second 3/2- state, decaying by 2p-channel, compared with level structure of mirror nucleus 11Be. Discussed possible 2n-decay of neutron-rich cluster configurations.
doi: 10.1103/PhysRevC.105.014314
Phys.Rev. C 112, 044302 (2025)
D.Jelavic Malenica, M.Milin, A.Di Pietro, P.Figuera, A.Musumarra, M.G.Pellegriti, V.Scuderi, N.Soic, S.Szilner, D.Torresi, M.Uroic
Experimental study of mirror nuclei 10Be-10C, 11B-11C, and 9Be-9B populated via 10B+10B nuclear reactions
NUCLEAR REACTIONS 10B(10B, 10B), (10B, 10B'), (10B, X)11C/9Be/9B, E=50, 72.2 MeV; measured reaction products. 9Be, 9,10B, 11C; deduced excitation spectrum, mirror analog states, states in compact shell-model configurations (e.g., members of ground-state rotational bands) show very small mirror energy differences (consistent with standard Coulomb displacement energies), whereas spatially extended clusterlike states exhibit significantly reduced energy gaps consistent with the Thomas-Ehrman shift, level energies, J, π. The SMP Tandem accelerator at the INFN-LNS facility in Catania, Italy.
doi: 10.1103/p14g-w98k