A Band Crossing Model of Resonances in Heavy Ion Reactions. I : Resonances in ^<12>C-^<16>O Scattering
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概要
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A band crossing model, which has been recently proposed by the present authors for an occurrence mechanism of resonances in heavy ion reactions, is explained in detail. The model is based on the observations (a) that prominent resonances are realized correlately among channels on the condition that resonances in inelastic or rearrangement channels locate close to those in the incident channel with the same spins and parities, and (b) that an aligned band, where the spin of (an excited state of) interacting nuclei and the orbital angular momentum of the relative motion between them are parallel to give the maximum total spin, usually crosses with the potential resonance band in the incident channel. By inspecting the crossing diagram together with the tops of the barrier heights of the total potential, we can predict where and with what spins molecular resonances appear with a certain nuclear configuration. The model is applied to the resonances observed well above the Coulomb barrier in the ^<12>C-^<16>O system. Characteristic features of the elastic excitation function with rather sharp resonances are well reproduced and at the same time the doublet-like resonances in the inelastic excitation function are excellently well explained by an interplay among the potential resonance band in the elastic channel and the aligned rotational band in the collectively excited inelastic channels. Characteristic consequences of the model are given, together with a semi-quantitative prediction as to a role of the excitation of the α-cluster states in ^<16>O.
- 理論物理学刊行会の論文
- 1978-06-25
著者
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Abe Yasuhisa
Research Institute For Fundamental Physics Kyoto University : Centre De Recherches Nucleaires
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Abe Yasuhisa
Research Institute For Fundamental Physics Kyoto University
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Kondo Yosio
Nuclear Physics Laboratory University Of Pittsburgh
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Kondo Yosio
Research Institute For Fundamental Physics Kyoto University
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Matsuse T
Department Of Fine Materials Engineering Faculty Of Textile Science And Technology Shinshu Universit
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MATSUSE Takehiro
Research Institute for Fundamental Physics, Kyoto University
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Matsuse Takehiro
Department Of Physics University Of Tokyo
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Matsuse Takehiro
Research Institute For Fundamental Physics Kyoto University
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Abe Yasuhisa
Research Center For Nuclear Physics Osaka University
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KONDO Yosio
Research Institute for Fundamental Physics, Kyoto University
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KONDO Yoshihiko
Department of Physics, Kochi University
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