DOI

  • D. Kocheva
  • G. Rainovski
  • J Jolie
  • N. Pietralla
  • A. Blazhev
  • A. Astier
  • R. Altenkirch
  • S. Ansari
  • Th. Braunroth
  • M. L. Cortes
  • A. Dewald
  • F. Diel
  • M. Djongolov
  • Ch. Fransen
  • K. A. Gladnishki
  • A. Hennig
  • V. Karayonchev
  • E. Kluge
  • J. Litzinger
  • C. Mueller-Gatermann
  • P. Petkov
  • M. Rudigier
  • Ph. Scholz
  • M. Spieker
  • C. Stahl
  • R. Stegmann
  • M. Stoyanova
  • P. Thoele
  • N. Warr
  • V. Werner
  • W. Witt
  • D. Woelk
  • K. O. Zell
  • P. Van Isacker
  • V. Yu. Ponomarev
The lifetimes of the 2+1, the 2+2 and the 31 states of 210Po have been measured in the 208Pb(12C,10Be)210Po transfer reaction by the Doppler-shift attenuation method. The result for the lifetime of the 2+1 state is about three times shorter than the adopted value. However, the new value still does not allow for a consistent description of the properties of the yrast 2+1, 4+1, 6+1, and 8+1 states of 210Po in the framework of nuclear shell models. Quasi-particle Phonon Model (QPM) calculations also cannot overcome this problem thus indicating the existence of a peculiarity which is neglected in both theoretical approaches.
Original languageEnglish
Article number12367
JournalEUROPEAN PHYSICAL JOURNAL A
Volume53
DOIs
StatePublished - 7 Sep 2017

ID: 1709433