Chaotic Motion of Classical Particles in Axially Symmetric Potentials with Octupole Deformation

Li Junqing

Chinese Physics C> 1997, Vol. 21> Issue(S4) : 33-40

Chaotic Motion of Classical Particles in Axially Symmetric Potentials with Octupole Deformation

Li Junqing

Institute of Modern Physics, The Chinese Academy of Sciences, Lanzhou, China

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Abstract：
The fact that there are more prolate-deformed nuclei than oblate-ones in nature is found to be related to the chaotic motion of nucleons. The primary investigation with classical theory showed that the particle motion in the potential with oblate-plus-octupole deformation could become chaotic at a smaller deformation strength as compared with the case of prolate-plus-octupole deformation. The reason is that the negative curvature in the potential surface could appear at a smaller deformation strength for the former one.
- octupole deformation ,
- potential surface ,
- chaotic motion

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Li Junqing. Chaotic Motion of Classical Particles in Axially Symmetric Potentials with Octupole Deformation[J]. Chinese Physics C, 1997, 21(S4): 33-40.

Li Junqing. Chaotic Motion of Classical Particles in Axially Symmetric Potentials with Octupole Deformation[J]. Chinese Physics C, 1997, 21(S4): 33-40. shu

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Received: 1996-07-24

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Supported by the National Natural Science Foundation of China and Fellowship of MPG, Germany.

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沈阳化工大学材料科学与工程学院沈阳 110142

Chaotic Motion of Classical Particles in Axially Symmetric Potentials with Octupole Deformation

Li Junqing

Institute of Modern Physics, The Chinese Academy of Sciences, Lanzhou, China

Received Date: 1996-07-24

Fund Project: Supported by the National Natural Science Foundation of China and Fellowship of MPG, Germany.

Abstract: The fact that there are more prolate-deformed nuclei than oblate-ones in nature is found to be related to the chaotic motion of nucleons. The primary investigation with classical theory showed that the particle motion in the potential with oblate-plus-octupole deformation could become chaotic at a smaller deformation strength as compared with the case of prolate-plus-octupole deformation. The reason is that the negative curvature in the potential surface could appear at a smaller deformation strength for the former one.