Add to ORKGAbstract: A shell-model calculation is performed for ~4Mg assuming wave functions with maximum symmetry in the spacial coordinates. Several interactions have been used including the Kallio-Kolltveit hard-core potential. A reasonable agreement is obtained for the energy levels, while the E2 branching ratios are in many cases different from the experimental values. The eigen-functions have large overlap with the predicted SU3 wave functions. The influence of particle-hole excitations in the spectrum is discussed. 1
In this project, the conguration interaction (CI) method is used to study the nuclear spectra and th...
The last decade has witnessed both quantitative and qualitative progresses in Shell Model studies, w...
Level energies and spectroscopic factors for isotopes of P, Si, and S are calculated with a shell mo...
A shell-model calculation is performed for 24Mg assuming wave functions with maximum symmetry in the...
Nuclear experimental data has suggested that like electrons, nuclei are arranged in shells. Develope...
The shell model is used to investigate quantitatively the nuclei in the range 29Si---40Ca. An inert ...
The one-dimensional harmonic oscillator in a box problem is used to intro-duce the concept of a mixe...
The spectra of nuclides involving few valence particles or holes far from β¯ stability are important...
The shell model is used to investigate properties of levels in the A = 38 nuclei. An inert 28Si cor...
In this paper, energy levels were calculated for two nuclei (148O6 ,146C8) by applyingthe nuclear sh...
The role played by the isotropic harmonic oscillator in the shell model is extensively investigated....
Background: Nuclear shell model is widely applied in the studies of light and medium-mass nuclei. Th...
Shell model calculations on nuclei in the region 28 < A < 40 are performed with the assumption of an...
The shell model is used to investigate quantitatively some odd-parity levels of nuclei in the range ...
Up to now, the nuclear shell model is rarely used in the nuclear data study because of several reaso...
In this project, the conguration interaction (CI) method is used to study the nuclear spectra and th...
The last decade has witnessed both quantitative and qualitative progresses in Shell Model studies, w...
Level energies and spectroscopic factors for isotopes of P, Si, and S are calculated with a shell mo...
A shell-model calculation is performed for 24Mg assuming wave functions with maximum symmetry in the...
Nuclear experimental data has suggested that like electrons, nuclei are arranged in shells. Develope...
The shell model is used to investigate quantitatively the nuclei in the range 29Si---40Ca. An inert ...
The one-dimensional harmonic oscillator in a box problem is used to intro-duce the concept of a mixe...
The spectra of nuclides involving few valence particles or holes far from β¯ stability are important...
The shell model is used to investigate properties of levels in the A = 38 nuclei. An inert 28Si cor...
In this paper, energy levels were calculated for two nuclei (148O6 ,146C8) by applyingthe nuclear sh...
The role played by the isotropic harmonic oscillator in the shell model is extensively investigated....
Background: Nuclear shell model is widely applied in the studies of light and medium-mass nuclei. Th...
Shell model calculations on nuclei in the region 28 < A < 40 are performed with the assumption of an...
The shell model is used to investigate quantitatively some odd-parity levels of nuclei in the range ...
Up to now, the nuclear shell model is rarely used in the nuclear data study because of several reaso...
In this project, the conguration interaction (CI) method is used to study the nuclear spectra and th...
The last decade has witnessed both quantitative and qualitative progresses in Shell Model studies, w...
Level energies and spectroscopic factors for isotopes of P, Si, and S are calculated with a shell mo...