Nuclear structure of 127Te studied with ( n , γ ) and ( d → , p ) reactions and interpreted with IBFM and QPM

Nuclear structure of 127Te studied with ( n , γ ) and ( d → , p ) reactions and interpreted with IBFM and QPM

The nuclear structure of 127Te has been investigated with the Te 126 ( n , γ γ ) Te 127 reaction using thermal neutrons and with the Te 126 ( d → , p ) Te 127 reaction at E d = 20   MeV . About 190 levels were identified in a region to 4.1 MeV excitation energy, in most cases including spin, parity...

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Bibliographic Details
Published in:Nuclear physics. A Vol. 756; no. 3; pp. 249 - 307
Main Authors: Honzátko, J., Bondarenko, V., Tomandl, I., von Egidy, T., Wirth, H.-F., Bucurescu, D., Ponomarev, V.Yu, Mărginean, N., Hertenberger, R., Eisermann, Y., Graw, G., Rubáček, L.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-07-2005
Subjects:
127Te deduced
asymmetry
binding energy
CCBA spectroscopic factors
cross sections
Direct neutron capture
DWBA
E=thermal
Enriched targets
formula omitted
Ge detectors
IBFM and QPM calculation and comparison
levels
measured
measured particle spectra
Nuclear reactions
polarized d
Q3D magnetic spectrograph
γ-branching ratios
γγ-coincidence
measured
Te 126 ( d , p )
Q3D magnetic spectrograph
21.10.-k
Direct neutron capture
21.60.Ev
measured particle spectra
IBFM and QPM calculation and comparison
127Te deduced
27.60.+j
Enriched targets
21.10.Jx
Nuclear reactions
Ge detectors
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Summary:The nuclear structure of 127Te has been investigated with the Te 126 ( n , γ γ ) Te 127 reaction using thermal neutrons and with the Te 126 ( d → , p ) Te 127 reaction at E d = 20   MeV . About 190 levels were identified in a region to 4.1 MeV excitation energy, in most cases including spin, parity and γ-decay. The γ-decay scheme after neutron capture is essentially complete containing about 100% of the population of the 11 / 2 − isomer and of the ground state. The thermal neutron capture cross section and isomer production of the 11 / 2 − state at 88.3 keV were determined to be 0.44(6) b and 0.069(10) b, respectively. The neutron binding energy was determined to be 6287.6(1) keV. A significant number of the ( d , p ) angular distributions of cross section and asymmetry are anomalous with respect to the distorted-wave Born-approximation calculations and could be accounted for by inelastic multi-step mechanisms. The observed strong correlation of the ( d , p ) and primary ( n , γ ) strengths gives evidence for the direct neutron capture process which is mainly responsible for the primary population of 16 levels. The experimental level scheme is compared with predictions of the interacting boson–fermion model and of the quasiparticle phonon model.
ISSN:0375-9474
DOI:10.1016/j.nuclphysa.2005.03.060