Nature of the First Excited States of the Vibrational Even-Even Nuclei
スポンサーリンク
概要
- 論文の詳細を見る
The energy of the first excited states of even-even nuclei, and the probability of the electromagnetic transition between this and the ground states are calculated. The calculation covers almost all the known vibrational even-even nuclei, and is performed by assuming that the effective interaction is a sum of the pair and Q-Q interactions, and by employing the BCS and Sawada approximations. The agreement of the obtained results with experiments are in general good, although it gets poorer for cases which have a smaller number of nucleons outside closed shells. For such cases rigorous shell model calculation is also performed and comparing the results with the above approximate ones, discussions on the validity of those approximations are made.
- 理論物理学刊行会の論文
- 1961-12-25
著者
-
Udagawa Takeshi
Department Of Chemistry School Of Science And Technology Kwansei Gakuin University
-
Tamura Taro
Department Of Physics Tokyo University Of Education
-
TAMURA Taro
Department of Physics, Tokyo University of Education
関連論文
- Effects of Tensor Forces on the Neutron-Deuteron Scattering
- A Theory for Coupling between Fundamental Excitation Modes in Nuclei
- A Collective Description of the Surface Oscillation of Atomic Nuclei : Extension of Tomonaga's Method to Three Dimensional Nucleus
- Vibrations of Spherical Nuclei
- Aspects of Boson Expansion Theories
- Nature of the First Excited States of the Vibrational Even-Even Nuclei
- Single Particle versus Collective Excitation in the Direct Interactions
- Photo-Meson Production from Deuteron
- Reformulation of DWBA Form Factor for Heavy Ion Transfer Reactions
- Slow Neutrons in the Cosmic Radiation, I
- On the Effect of Pauli Principle on Collective Vibrations in Nuclei
- Carrier Multiplication in CdTe Quantum Dots by Single-photon Timing Spectroscopy
- A respiratory sensitization study by a new quantitative structure-activity relationships (QSAR)
- On the Intermediate Resonance Levels in the Nuclear Reactions