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Detailed spectroscopy of doubly magic Sn 132

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  • J. Benito
  • L. M. Fraile
  • A. Korgul
  • M. Piersa
  • E. Adamska
  • R. Álvarez-Rodríguez
  • A. E. Barzakh
  • G. Benzoni
  • T. Berry
  • M. J.G. Borge
  • M. Carmona
  • K. Chrysalidis
  • C. Costache
  • T. Day Goodacre
  • H. De Witte
  • D. V. Fedorov
  • V. N. Fedosseev
  • G. Fernández-Martínez
  • A. Fijałkowska
  • M. Fila
  • H. Fynbo
  • D. Galaviz
  • P. Galve
  • M. García-Díez
  • P. T. Greenlees
  • R. Grzywacz
  • L. J. Harkness-Brennan
  • C. Henrich
  • M. Huyse
  • P. Ibáñez
  • A. Illana
  • Z. Janas
  • J. Jolie
  • D. S. Judson
  • V. Karayonchev
  • M. Kicińska-Habior
  • J. Konki
  • J. Kurcewicz
  • I. Lazarus
  • R. Licǎ
  • A. López-Montes
  • M. Lund
  • H. Mach
  • M. Madurga
  • I. Marroquín
  • B. Marsh
  • M. C. Martínez
  • C. Mazzocchi
  • N. Mǎrginean
  • R. Mǎrginean
  • K. Miernik
  • C. Mihai
  • R. E. Mihai
  • E. Nácher
  • A. Negret
  • B. Olaizola
  • R. D. Page
  • S. V. Paulauskas
  • S. Pascu
  • A. Perea
  • V. Pucknell
  • P. Rahkila
  • C. Raison
  • E. Rapisarda
  • J. M. Régis
  • K. Rezynkina
  • F. Rotaru
  • S. Rothe
  • D. Sánchez-Parcerisa
  • V. Sánchez-Tembleque
  • K. Schomacker
  • Ch Sotty
  • L. Stan
  • M. Stǎnoiu
  • M. Stryjczyk
  • O. Tengblad
  • A. Turturica
  • J. M. Udías
  • P. Van Duppen
  • V. Vedia
  • A. Villa-Abaunza
  • S. Viñals
  • W. B. Walters
  • N. Warr


Publication details

JournalPhysical Review C
DateAccepted/In press - 2 Jul 2020
DatePublished (current) - 29 Jul 2020
Issue number1
Original languageEnglish


The structure of the doubly magic Sn8250132 has been investigated at the ISOLDE facility at CERN, populated both by the β-decay of In132 and β - delayed neutron emission of In133. The level scheme of Sn132 is greatly expanded with the addition of 68 γ transitions and 17 levels observed for the first time in the β decay. The information on the excited structure is completed by new γ transitions and states populated in the β-n decay of In133. Improved delayed neutron emission probabilities are obtained both for In132 and In133. Level lifetimes are measured via the advanced time-delayed βγγ(t) fast-timing method. An interpretation of the level structure is given based on the experimental findings and the particle-hole configurations arising from core excitations both from the N = 82 and Z = 50 shells, leading to positive- and negative-parity particle-hole multiplets. The experimental information provides new data to challenge the theoretical description of Sn132.

Bibliographical note

© 2020, The Author(s).


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