Collectivity in the light radon nuclei measured directly via Coulomb excitation

Gaffney, L. P.; Robinson, A. P.; Jenkins, D. G.; Andreyev, A. N.; Bender, M.; Blazhev, A.; Bree, N.; Bruyneel, B.; Butler, P. A.; Cocolios, T. E.; Davinson, T.; Deacon, A. N.; De Witte, H.; DiJulio, D.; Diriken, J.; Ekström, A.; Fransen, Ch.; Freeman, S. J.; Geibel, K.; Grahn, Tuomas; Hadinia, B.; Hass, M.; Heenen, P.-H.; Hess, H.; Huyse, M.; Jakobsson, Ulrika; Kesteloot, N.; Konki, Joonas; Kröll, Th.; Kumar, V.; Ivanov, O.; Martin-Haugh, S.; Mücher, D.; Orlandi, R.; Pakarinen, Janne; Petts, A.; Peura, Pauli; Rahkila, Panu; Reiter, P.; Scheck, M.; Seidlitz, M.; Singh, K.; Smith, J. F.; Walle, J. Van de; Van Duppen, P.; Voulot, D.; Wadsworth, R.; Warr, N.; Wenander, F.; Wimmer, K.; Wrzosek-Lipska, K.; Zielińska, M.

doi:10.1103/PhysRevC.91.064313

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Gaffney, L. P., Robinson, A. P., Jenkins, D. G., Andreyev, A. N., Bender, M., Blazhev, A., Bree, N., Bruyneel, B., Butler, P. A., Cocolios, T. E., Davinson, T., Deacon, A. N., De Witte, H., DiJulio, D., Diriken, J., Ekström, A., Fransen, Ch., Freeman, S. J., Geibel, K., . . . Zielińska, M. (2015). Collectivity in the light radon nuclei measured directly via Coulomb excitation. Physical Review C, 91(6), Article 064313. https://doi.org/10.1103/PhysRevC.91.064313

Julkaistu sarjassa

Physical Review C

Tekijät

Gaffney, L. P. |

Robinson, A. P. |

Jenkins, D. G. |

Andreyev, A. N. |

Bender, M. |

Blazhev, A. |

Bree, N. |

Bruyneel, B. |

Butler, P. A. |

Cocolios, T. E. |

Davinson, T. |

Deacon, A. N. |

De Witte, H. |

DiJulio, D. |

Diriken, J. |

Ekström, A. |

Fransen, Ch. |

Freeman, S. J. |

Geibel, K. |

Grahn, Tuomas |

Hadinia, B. |

Hass, M. |

Heenen, P.-H. |

Hess, H. |

Huyse, M. |

Jakobsson, Ulrika |

Kesteloot, N. |

Konki, Joonas |

Kröll, Th. |

Kumar, V. |

Ivanov, O. |

Martin-Haugh, S. |

Mücher, D. |

Orlandi, R. |

Pakarinen, Janne |

Petts, A. |

Peura, Pauli |

Rahkila, Panu |

Reiter, P. |

Scheck, M. |

Seidlitz, M. |

Singh, K. |

Smith, J. F. |

Walle, J. Van de |

Van Duppen, P. |

Voulot, D. |

Wadsworth, R. |

Warr, N. |

Wenander, F. |

Wimmer, K. |

Wrzosek-Lipska, K. |

Zielińska, M.

Päivämäärä

2015

Oppiaine

Kiihdytinlaboratorio Accelerator Laboratory

Tekijänoikeudet

© the Authors. This article is available under the terms of the Creative Commons Attribution License. Further distribution of this work must maintain attribution to the author(s) and the published article’s title, journal citation, and DOI. Published by the American Physical Society.

Background: Shape coexistence in heavy nuclei poses a strong challenge to state-of-the-art nuclear models, where several competing shape minima are found close to the ground state. A classic region for investigating this phenomenon is in the region around Z = 82 and the neutron midshell at N = 104. Purpose: Evidence for shape coexistence has been inferred from α-decay measurements, laser spectroscopy, and in-beam measurements. While the latter allow the pattern of excited states and rotational band structures to be mapped out, a detailed understanding of shape coexistence can only come from measurements of electromagnetic matrix elements. Method: Secondary, radioactive ion beams of 202Rn and 204Rn were studied by means of low-energy Coulomb excitation at the REX-ISOLDE in CERN. Results: The electric-quadrupole (E2) matrix element connecting the ground state and first excited 2+ 1 state was extracted for both 202Rn and 204Rn, corresponding to B(E2; 2+ 1 → 0+ 1 ) = 29+8 −8 ... showmore

Julkaisija

American Physical Society

ISSN Hae Julkaisufoorumista

0556-2813

Lisenssi

© the Authors. This article is available under the terms of the Creative Commons Attribution License. Further distribution of this work must maintain attribution to the author(s) and the published article’s title, journal citation, and DOI. Published by the American Physical Society.

Ellei muuten mainita, aineiston lisenssi on © the Authors. This article is available under the terms of the Creative Commons Attribution License. Further distribution of this work must maintain attribution to the author(s) and the published article’s title, journal citation, and DOI. Published by the American Physical Society.

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