Add to ORKGThe contribution of quantum shape fluctuations to inertial properties of rotating nuclei has been analysed within the self-consistent one-dimensional cranking oscillator model. It is shown that in even-even nuclei the dynamical moment of inertia calculated in the mean field approximation is equivalent to the Thouless-Valatin moment of inertia calculated in the random phase approximation if and only if the self-consistent conditions for the mean field are fulfilled
The so-called Higher Tamm–Dancoff Approximation (HTDA) has been designed to describe microscopically...
Collective states near the yrast line in nuclei with stable octupole deformation are discussed in th...
The self-consistent harmonic oscillator model including the three-dimensional cranking term is exten...
The contribution of quantum shape fluctuations to inertial properties of rotating nuclei has been an...
The contribution of quantum shape fluctuations to inertial properties of rotating nuclei has been an...
Spontaneous breaking of continuous symmetries of a nuclear many-body system results in the appearanc...
An original method for calculating the moment of inertia of the collective rotation of a nucleus on ...
The collective rotation in deformed nuclei is described in the random phase approximation (RPA). The...
The original method for the calculation of inertia moment of nucleus at arbitrary frequencies and fi...
The moment of inertia for collective rotation is derived analytically for the harmonic-oscillator Ha...
The static path approximation to the path integral representation of partition function provides a n...
Collective moments of inertia as well as quadrupole and octupole mass parameters are calculated in t...
We propose in this paper an approach to describe the dynamical moment of inertia of superdeformed nu...
International audienceShell corrections to the moment of inertia (MI) are calculated for a Woods–Sax...
Abstract. An approximation dubbed as the Higher TammDankoff Approximation (HTDA) has been designed t...
The so-called Higher Tamm–Dancoff Approximation (HTDA) has been designed to describe microscopically...
Collective states near the yrast line in nuclei with stable octupole deformation are discussed in th...
The self-consistent harmonic oscillator model including the three-dimensional cranking term is exten...
The contribution of quantum shape fluctuations to inertial properties of rotating nuclei has been an...
The contribution of quantum shape fluctuations to inertial properties of rotating nuclei has been an...
Spontaneous breaking of continuous symmetries of a nuclear many-body system results in the appearanc...
An original method for calculating the moment of inertia of the collective rotation of a nucleus on ...
The collective rotation in deformed nuclei is described in the random phase approximation (RPA). The...
The original method for the calculation of inertia moment of nucleus at arbitrary frequencies and fi...
The moment of inertia for collective rotation is derived analytically for the harmonic-oscillator Ha...
The static path approximation to the path integral representation of partition function provides a n...
Collective moments of inertia as well as quadrupole and octupole mass parameters are calculated in t...
We propose in this paper an approach to describe the dynamical moment of inertia of superdeformed nu...
International audienceShell corrections to the moment of inertia (MI) are calculated for a Woods–Sax...
Abstract. An approximation dubbed as the Higher TammDankoff Approximation (HTDA) has been designed t...
The so-called Higher Tamm–Dancoff Approximation (HTDA) has been designed to describe microscopically...
Collective states near the yrast line in nuclei with stable octupole deformation are discussed in th...
The self-consistent harmonic oscillator model including the three-dimensional cranking term is exten...