A Microscopic Description of Nuclear Rotational Motions. III : Equation of Motion in the Intrinsic Space
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概要
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On the basis of our previous works we propose a general method for solving the equation of rotational motion in the intrinsic space and determining the moment of inertia. Applying this method to many-j shell system with a quadrupole force, we get the cranking formula for the moment of inertia. From our equations in the intrinsic space we derive a set of equations similar to those in the RPA method. In this way a new understanding of the RPA method for nuclear rotational motions is suggested. We also mention briefly the validity of the linearization approximation used in our method.
- 理論物理学刊行会の論文
- 1980-07-25
著者
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Shono Yoshiyuki
Division Of Mathematical Physics Faculty Of Engineering Fukui University
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SHONO Yoshiyuki
Division of Mathematical Physics, Faculty of Engineering Fukui University
関連論文
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- A Microscopic Description of Nuclear Rotational Motion. I
- Microscopic Cluster Model for the ^9_∧Be Hypernucleus
- A Microscopic Description of Nuclear Rotational Motions. III : Equation of Motion in the Intrinsic Space
- A Microscopic Description of Nuclear Rotational Motion. II : Rotation and HF Approximation