| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 5495025 | Physics Letters B | 2017 | 5 Pages |
Abstract
The decay of the lightest nucleus with Tz=â3, 22Si, was studied by a silicon array. A charged-particle group at 5600 (70) keV in the decay-energy spectrum was identified experimentally as β-delayed two-proton emission from the isobaric analog state (IAS) of 22Al. Experimental results of the IAS fed by a superallowed Fermi transition were compared with our large-scale shell-model calculations. The ground-state mass of 22Si was obtained indirectly in the experiment for the first time. Two-proton separation energy for 22Si is deduced to be â108 (125) keV, which indicates that it is a very marginal candidate for two-proton ground-state emission.
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Physical Sciences and Engineering
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Authors
X.X. Xu, C.J. Lin, L.J. Sun, J.S. Wang, Y.H. Lam, J. Lee, D.Q. Fang, Z.H. Li, N.A. Smirnova, C.X. Yuan, L. Yang, Y.T. Wang, J. Li, N.R. Ma, K. Wang, H.L. Zang, H.W. Wang, C. Li, H.Q. Zhang,