THE GIVEN PROBABILITIES ARE B(M1) FOR M1-TRANSITIONS FROM STATES TO STATES AND OF THE BASEBAND OF THE 156Gd NUCLEUS
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Web of Journals Publishing
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For the 156Gd nucleus, theoretical calculations were carried out within the framework of the phenomenological model, taking into account the Coriolis mixing of the states of low-lying positive-parity rotational bands. The Coriolis interaction makes it possible to explain the nonadiabaticity effects observed in the properties of excited states. Reduced probabilities of M1-transitions from vibrational states are calculated. The agreement between the theoretical results and experimental data is generally satisfactory.