Nuclear orientation of156Tb in gadolinium matrix |
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Authors: | J. Říkovská A. Machová W. D. Hamilton J. Dupák Chan Chen Mo M. Finger N. A. Lebedev B. S. Neganov V. N. Pavlov A. F. Shchus |
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Affiliation: | (1) Czech Technical University, Prague;(2) University of Sussex, Brighton, UK;(3) Joint Institute for Nuclear Research, Dubna, USSR;(4) Department of Physics, Faculty of Mechanical Engineering, Suchbatarova 4, Prague 6, Czechoslovakia;(5) Faculty of Nuclear Physics and Technical Engineering, Kemencova 10, Prague 1, Czechoslovakia |
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Abstract: | The anisotropy of the angular distribution of gamma-rays from the decay of156Tb, oriented in a gadolinium matrix at low temperatures, has been measured at the angles of 0 and π/2 with respect to the applied magnetic field direction in the range of temperatures from 14·6 to 68·4 mK. The temperature dependence of anisotropy was measured for the first time. The parameters of hyperfine magnetic dipole and electric quadrupole splittings have been determined and the values of the magnetic dipole moment ¦Μ156¦=(9·6±1·3)×10?27 J/T and the electric quadrupole momentQ 156=(2·9±0·9)×10?28 m2 of the156Tb ground state have been calculated. Multipole mixing ratios andB(E2) branching ratios of many gamma-ray transitions occurring in156Gd have been found and the results have been discussed in terms of the rotational-vibration and pairing-plus-quadrupole models. |
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