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Article
Title $^{208}$Po populated through EC/β$^{+}$ decay
Author(s) Brunet, M (Surrey U.) ; Berry, T A (Surrey U.) ; Podolyák, Zs (Surrey U.) ; Carroll, R J (Surrey U.) ; Lica, R (CERN ; Bucharest, IFIN-HH) ; Sotty, Ch (Bucharest, IFIN-HH ; Leuven U.) ; Andreyev, A N (York U., England) ; Borge, M J G (CERN) ; Cubiss, J G (CERN ; York U., England) ; Fraile, L M (Madrid U.) ; Fynbo, H O U (Aarhus U.) ; Gamba, E (Brighton U.) ; Greenless, P (Jyvaskyla U.) ; Harkness-Brennan, L J (Liverpool U.) ; Huyse, M (Leuven U.) ; Judson, D S (Liverpool U.) ; Konki, J (Jyvaskyla U.) ; Kurcewicz, J (CERN) ; Lazarus, I ; Madurga, M (CERN) ; Marginean, N (Bucharest, IFIN-HH) ; Marginean, R (Bucharest, IFIN-HH) ; Marroquin, I (Madrid, IMAFF) ; Mihai, C (Bucharest, IFIN-HH) ; Nácher, E (Madrid, IMAFF) ; Negret, A (Bucharest, IFIN-HH) ; Pascu, S (Bucharest, IFIN-HH) ; Page, R D (Liverpool U.) ; Perea, A (Madrid, IMAFF) ; Phrompao, J (Chiang Mai U.) ; Piersa, M (Warsaw U.) ; Pucknell, V (Daresbury) ; Rahkila, P (Jyvaskyla U.) ; Rapisarda, E (CERN) ; Regan, P H (Surrey U. ; Teddington, Natl. Phys. Lab) ; Rotaru, F (Bucharest, IFIN-HH) ; Rudigier, M (Surrey U.) ; Shand, C M (Surrey U.) ; Shearman, R (Surrey U. ; Teddington, Natl. Phys. Lab) ; Simpson, E C (Australian Natl. U., Canberra) ; Stora, T (CERN) ; Tengblad, O (Madrid, IMAFF) ; Duppen, P Van (Leuven U.) ; Vedia, V (Madrid U.) ; Vinals, S (Madrid, IMAFF) ; Wadsworth, R (York U., England) ; Warr, N (Australian Natl. U., Canberra, CMA) ; De Witte, H (Leuven U.)
Publication 2020
Number of pages 7
In: J. Phys. : Conf. Ser. 1643 (2020) 012116
In: International Nuclear Physics Conference 2019, Glasgow, United Kingdom, 29 Jul - 2 Aug 2019, pp.012116
DOI 10.1088/1742-6596/1643/1/012116
Subject category Nuclear Physics - Experiment
Accelerator/Facility, Experiment CERN ISOLDE
Abstract The structure of $^{208}$Po resulting from the EC/β + decay of $^{208}$At was studied at CERN’s ISOLDE Decay Station (IDS). The high statistics afforded by the high yield of $^{208}$At and the high efficiency HPGe clusters at the IDS allowed for greater insight into lower intensity transitions and thus significant expansion of the $^{208}$Po level scheme. Furthermore, investigation into the isomeric state yielded a new half life 377(9) ns in addition to uncovering new transitions populating the state.
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