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Low-lying states in 219Ra and 215Rn : Sampling microsecond α-decaying nuclei

Authors :: Såmark-Roth, A.
Sarmiento, L. G.
Rudolph, D.
Ljungberg, J.
Carlsson, B. G.
Fahlander, C.
Forsberg, U.
Golubev, P.
Ragnarsson, I.
Ackermann, D.
Andersson, L. L.
Block, M.
Brand, H.
Cox, D. M.
Di Nitto, A.
Düllmann, Ch E.
Eberhardt, K.
Even, J.
Gates, J. M.
Gerl, J.
Gregorich, K. E.
Gross, C. J.
Herzberg, R. D.
Heßberger, F. P.
Jäger, E.
Khuyagbaatar, J.
Kindler, B.
Kojouharov, I.
Kratz, J. V.
Krier, J.
Kurz, N.
Lommel, B.
Mistry, A.
Mokry, C.
Omtvedt, J. P.
Papadakis, P.
Runke, J.
Rykaczewski, K.
Schädel, M.
Schaffner, H.
Schausten, B.
Thörle-Pospiech, P.
Trautmann, N.
Torres, T.
Türler, A.
Ward, A.
Wiehl, N.
Yakushev, A.
Source :: Physical Review C; 98(4), no 044307 (2018)
Publication Year :: 2018
Publisher :: American Physical Society, 2018.
Abstract: Short-lived α-decaying nuclei "northeast" of 208Pb in the chart of nuclides were studied using the reaction 48Ca+243Am with the decay station TASISpec at TASCA, GSI Darmstadt. Decay energies and times from pile-up events were extracted with a tailor-made pulse-shape analysis routine and specific α-decay chains were identified in a correlation analysis. Decay chains starting with the even-even 220Ra and its odd-A neighbors, 219Fr, and 219,221Ra, with a focus on the 219Ra→215Rn decay, were studied by means of α-γ spectroscopy. A revised α-decay scheme of 219Ra is proposed, including a new decay branch from a previously not considered isomeric state at 17 keV excitation energy. Conclusions on nuclear structure are drawn from the experimental data, aided by Geant4 simulations and a discussion on theoretical calculations.