Rotation-Vibration Interaction in ${Sm}^{152}$

13 September 1971

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 27 (11) , 748-751
https://doi.org/10.1103/physrevlett.27.748

Abstract

The angular-momentum dependence of the matrix element which couples the rotational and vibrational bands in deformed nuclei is determined from the measured energies of ground-state band levels. A calculation involving three bands and matrix diagonalization produces excellent overall agreement with experimental

E 2

transitions between the

β

-vibrational,

γ

-vibrational, and ground-state-rotational bands, and for transitions within the ground-state band.

Keywords

This publication has 14 references indexed in Scilit:

Electric quadrupole transitions from high spin states in the beta-vibrational band of 154Gd
Physics Letters B, 1971
Beta-Gamma Band Mixing inSm152
Physical Review C, 1971
Lifetimes of Ground-Band States in ${}^{148, 150, 152}{Sm}$
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Physical Review C, 1970
$E 2$ Matrix Elements Between High-Spin States in the Ground-State Bands of ${Sm}^{152}$ and ${Sm}^{154}$
Physical Review Letters, 1969
Investigation of Band-Mixing Anomalies in ${Sm}^{152}$
Physical Review Letters, 1969
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Physical Review B, 1969
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Physical Review B, 1968
Rotation vibration interaction in deformed nuclei
Nuclear Physics, 1965

Rotation-Vibration Interaction inSm152

Abstract

Keywords

Rotation-Vibration Interaction in ${Sm}^{152}$