This study was carried out to investigate the rotational structure of even-even 166Hf isotopes using the phenomenological fitting, Sood’s semi-empirical formula. The rotational energies from the calculated values were compared to the experimental spectrum. The result shows that in 166Hf, calculated energies fit the experimental values to a remarkable degree of accuracy
International audienceTriaxial Strongly Deformed (TSD) band structures have been observed in several...
In this paper, a method of defining the even-even deformed nuclei inertial parameters is suggested. ...
Although the observation of wobbling was once thought to be possibly confined to lutetium isotopes i...
Accounting for Coriolis mixing of experimentally known rotational bands non-adiabatic effects in ene...
Low-lying excited states and structure of even-even, deformed, rare earth 152,154,156Sm and 156,158,...
The new equation derived in the previous paper within the framework of the hydrodynamical model and...
166,168Hf are the lightest isotopes of Hf, for which the spectral information for non-yrast levels i...
In this work, non - adiabatic effects manifested in the magnetic properties of lowlying states of e...
Excited states in the odd-odd, highly neutron-deficient nucleus 166Re have been investigated via the...
In this paper, a method of defining the even-even deformed nuclei inertial parameters is suggested. ...
Two rotational bands of distinct character have been identified in 164Hf from a recent experiment at...
The increase of the moment of inertia with angular momentum predicted in the U(6) SU(3) model is com...
The population of ground state rotational bands in the even-even deformed nuclides 166,168Yb, 170,17...
The mass region of rare-earth nuclei in the nuclear chart is riddled with well-deformed nuclei, exhi...
The experimental rotational spectra of the deformed nuclei available in even-even and odd-A nuclei i...
International audienceTriaxial Strongly Deformed (TSD) band structures have been observed in several...
In this paper, a method of defining the even-even deformed nuclei inertial parameters is suggested. ...
Although the observation of wobbling was once thought to be possibly confined to lutetium isotopes i...
Accounting for Coriolis mixing of experimentally known rotational bands non-adiabatic effects in ene...
Low-lying excited states and structure of even-even, deformed, rare earth 152,154,156Sm and 156,158,...
The new equation derived in the previous paper within the framework of the hydrodynamical model and...
166,168Hf are the lightest isotopes of Hf, for which the spectral information for non-yrast levels i...
In this work, non - adiabatic effects manifested in the magnetic properties of lowlying states of e...
Excited states in the odd-odd, highly neutron-deficient nucleus 166Re have been investigated via the...
In this paper, a method of defining the even-even deformed nuclei inertial parameters is suggested. ...
Two rotational bands of distinct character have been identified in 164Hf from a recent experiment at...
The increase of the moment of inertia with angular momentum predicted in the U(6) SU(3) model is com...
The population of ground state rotational bands in the even-even deformed nuclides 166,168Yb, 170,17...
The mass region of rare-earth nuclei in the nuclear chart is riddled with well-deformed nuclei, exhi...
The experimental rotational spectra of the deformed nuclei available in even-even and odd-A nuclei i...
International audienceTriaxial Strongly Deformed (TSD) band structures have been observed in several...
In this paper, a method of defining the even-even deformed nuclei inertial parameters is suggested. ...
Although the observation of wobbling was once thought to be possibly confined to lutetium isotopes i...
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