Author:
Bottoni S.,Gamba E. R.,De Gregorio G.,Gargano A.,Leoni S.,Fornal B.,Brancadori N.,Ciconali G.,Crespi F. C. L.,Cieplicka-Oryńczak N.,Iskra L. W.,Colombi G.,Kim Y.H.,Köster U.,Michelagnoli C.,Dunkel F.,Esmaylzadeh A.,Gerhard L.,Jolie J.,Knafla L.,Ley M.,Régis J.-M.,Schomaker K.,Sferrazza M.
Abstract
Abstract
The structure of the
11
/
2
1
+
state in 131Sb was investigated at the LOHENGRIN spectrometer of Institut Laue-Langevin via neutron-induced fission of 235U and lifetime measurements, yielding
T
1
/
2
=
3
(
2
)
, at the edge of the sensitivity of the experimental method. This first result for the
11
/
2
1
+
state half-life in neutron-rich Sb isotopes provides a quadrupole reduced transition probability to the ground state of
B
(
E
2
)
=
1.4
−
0.6
+
1.5
W.u., very close to the
B
(
E
2
;
2
1
+
→
0
1
+
)
in 130Sn. Realistic shell-model calculations reproduce well both the experimental level scheme of 131Sb and the
B
(
E
2
;
11
/
2
1
+
→
7
/
2
1
+
)
value, indicting a dominant
2
+
(
130
Sn
)
⊗
π
g
7
/
2
core-proton coupled configuration for the
11
/
2
1
+
state.
Subject
Computer Science Applications,History,Education