The Doubly Closed Shell Nucleus Sn-132(50)82
Journal article, 1986

The structure of excited states in 132Sn, fed in the β-decay of 132In, has been investigated. Absolute intensities were deduced from γ-singles measurements. From multi-spectrum analysis of γ-lines the half-life of 132In was determined to be 186 ± 22 ms. A level scheme based on γγ and βγ coincidences is presented. The conversion electron spectrum has been studied and internal conversion coefficients deduced for two low-energy transitions. The total decay energy of 132In was determined, from γ-gated β-spectra, to be Qβ = 13.6 ± 0.4 MeV. A lower limit of 6.968 MeV for the neutron separation energy in 132Sn was deduced from the β-delayed neutron spectrum. The experimental results on the level structure of the doubly closed shell nucleus 132Sn show that the shell model is applicable even far from the valley of stability.

Author

T. Bjornstad

M. J. G. Borge

J. Blomqvist

R. D. Vondincklage

G. T. Ewan

P. Hoff

Björn Jonson

Department of Physics

K. Kawade

A. Kerek

O. Klepper

G. Lovhoiden

Stanley Mattsson

Department of Physics

Göran Hugo Nyman

Department of Physics

H. L. Ravn

G. Rudstam

K. Sistemich

Olof Tengblad

Department of Physics

Nuclear Physics A

0375-9474 (ISSN)

Vol. 453 3 463-485

Subject Categories

Subatomic Physics

DOI

10.1016/0375-9474(86)90447-1

More information

Created

10/7/2017