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Characterization of Superdeformed Bands in 62Zn

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Author

  • Jnaneswari Gellanki
  • Ingemar Ragnarsson
  • Dirk Rudolph
  • C. E. Svensson
  • Lise-Lotte Andersson
  • Corina Andreoiu
  • C. Baktash
  • M. P. Carpenter
  • R. J. Charity
  • C. J. Chiara
  • J. Eberth
  • Jörgen Ekman
  • Claes Fahlander
  • D. S. Haslip
  • E. K. Johansson
  • D. R. LaFosse
  • S. D. Paul
  • O. L. Pechenaya
  • W. Reviol
  • Rickard du Rietz
  • D. G. Sarantites
  • D. Seweryniak
  • L. G. Sobotka
  • H. G. Thomas
  • D. A. Torres
  • J. C. Waddington
  • J. N. Wilson
  • C. H. Yu
  • S. Zhu
Show all

Summary, in English

Combined data from four fusion-evaporation reaction experiments were utilized to investigate deformed and superdeformed structures in Zn-62(30)32. Combination of the Gammasphere gamma-ray spectrometer and ancillary particle detection systems allowed for the connection of rotational bands to well-known, low-lying excited states in Zn-62, as well as spectroscopy of discrete high-spin states reaching excitation energies of E-x=42.5 MeV. Four well- or superdeformed bands in Zn-62 are characterized and described by means of cranked Nilsson-Strutinsky calculations.

Publishing year

2009

Language

English

Publication/Series

Physical Review C (Nuclear Physics)

Volume

80

Issue

5

Document type

Journal article

Publisher

American Physical Society

Topic

  • Subatomic Physics
  • Physical Sciences

Status

Published

Project

  • Comprehensive Gamma-ray Spectroscopy of 62Zn and Studies of Nilsson Parameters in the Mass A=60 Region

Research group

  • Nuclear Structure

ISBN/ISSN/Other

  • ISSN: 0556-2813