Gamma-ray spectroscopy at the limits: first observation of rotational bands in 255Lr.

Authors :: Ketelhut S
Greenlees PT
Ackermann D
Antalic S
Clément E
Darby IG
Dorvaux O
Drouart A
Eeckhaudt S
Gall BJ
Görgen A
Grahn T
Gray-Jones C
Hauschild K
Herzberg RD
Hessberger FP
Jakobsson U
Jones GD
Jones P
Julin R
Juutinen S
Khoo TL
Korten W
Leino M
Leppänen AP
Ljungvall J
Moon S
Nyman M
Obertelli A
Pakarinen J
Parr E
Papadakis P
Peura P
Piot J
Pritchard A
Rahkila P
Rostron D
Ruotsalainen P
Sandzelius M
Sarén J
Scholey C
Sorri J
Steer A
Sulignano B
Theisen Ch
Uusitalo J
Venhart M
Zielinska M
Bender M
Heenen PH
Source :: Physical review letters [Phys Rev Lett] 2009 May 29; Vol. 102 (21), pp. 212501. Date of Electronic Publication: 2009 May 29.
Publication Year :: 2009
Abstract: The rotational band structure of 255Lr has been investigated using advanced in-beam gamma-ray spectroscopic techniques. To date, 255Lr is the heaviest nucleus to be studied in this manner. One rotational band has been unambiguously observed and strong evidence for a second rotational structure was found. The structures are tentatively assigned to be based on the 1/2-[521] and 7/2-[514] Nilsson states, consistent with assignments from recently obtained alpha decay data. The experimental rotational band dynamic moment of inertia is used to test self-consistent mean-field calculations using the Skyrme SLy4 interaction and a density-dependent pairing force.

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