The Structure of the Lowest Excited 0^+ Rotational Band of ^<16>O
スポンサーリンク
概要
- 論文の詳細を見る
The structure of the lowest excited 0^+ rotational band is investigated by using the extended Nilsson model wave functions with angular momentum projection and the Bl interaction, two-body LS-force of the Skyrme type and the Coulomb interaction. The results obtained show good agreement with energy interval in this band.
- 理論物理学刊行会の論文
- 1983-10-25
著者
-
Suekane Shota
Department Of Physics Faculty Of Science Osaka City University
-
IKEBATA Yasuhiko
Department of Physics, Osaka City University
-
Ikebata Yasuhiko
Department Of Physics Osaka City University
関連論文
- Nuclear Deformability and Shell Structure
- Nuclear Quadrupole Moment and Rigidity of Nuclear Core
- Surface Rigidity and Shell Structure of Nuclei
- Basic Rotational Band and Band Mixing in the Cranking Model
- The First-Order E2 Core Polarization Charge of ^Ca in Woods-Saxon Shell Model
- Hamamoto's Remedy for the Band Crossing Anomalies in the Cranking Model
- Quasi-Free Proton-Proton Scattering on Deformed Nuclei
- On the Non-Axial Deformation of the Medium and Heavy Even-Even Nuclei
- The Structure of the First Excited 0^+ State of ^
- The Effect of the Electron Correlation on the Electrical Resistivity of Liquid Metals
- The Catalysis of Nuclear Fusion Reactions by μ^--Mesons
- Stability of Axially Asymmetric Nuclear Deformation
- Octupole Type Deformation of Nuclear Surface
- The Magnetic Octupole Moments of Nuclei
- The Hexadecapole Moments of Atomic Nuclei
- Effects of the Degeneracy on the Bethe-Goldstone Type Equation for ^O
- The Neck-In Dependence of the Potential Energy Surface of ^U and Asymmetric Fragmentation
- The Structure of the Lowest Excited 0^+ Rotational Band of ^O