On the Contraction of Deuteron Cluster in Li^6
スポンサーリンク
概要
- 論文の詳細を見る
Physical origins of the contraction of the deuteron cluster in Li^6 are clarified. Two effects are studied under an adiabatic approximation, namely the effect of the Pauli principle and the effect on the potential field induced by the alpha cluster. These two are found to play an opposite role on contraction and extension of the deuteron cluster. The former has a dominant effect and realizes the contracted deuteron cluster in Li^6.
- 理論物理学刊行会の論文
- 1970-11-25
著者
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Bando Hiroharu
Department Of Physics Kyoto University
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Itonaga Kazunori
Department Of Physics Kyoto University
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Itonaga Kazunori
Department Of Applied Mathematics Faculty Of Engineering Science Osaka University
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ITONAGA Kazunori
Department of Physics, Kyoto University
関連論文
- Deuteron Clustering in Nuclear Matter
- Binding Energy of Nuclear Matter by the Hole Line Expansion Method. I
- Shell and Alpha-Cluster-Like States in ^Ti
- Chapter V Structure of Light fp-Shell Nuclei : Effects of Core-Excitation and α-Clustering Correlation
- Alpha-Cluster Structure and Weak Coupling Feature in Light sd-Shell Nuclei : General Discussion and ^F Problem
- Reaction Matrix Theory for Cluster States in Light Nuclei. II : Clustering Dependence of the Effective Interaction
- Reaction Matrix Theory for Cluster States in Light Nuclei. I : Be^8
- Effective Hamiltonian and Energy Gap in Finite Nuclei
- Effects of Correlation in the Core on the Motion of Outer Two Nucleons
- Heavy Ion Collision with Friction Model : Nulcear Physics
- Nuclear Force and Energy Gap in Finite Nuclei
- On the Renormalization Effect due to the Ground State Correlation on the Nuclear Vibrational Motion
- p-Shell Hypernuclei via (K^-, π^-), (π^+, K^+) and (Stopped K^-, π^-) Reactions : A Systematic Calculation with Configuration Mixing : Nuclear Physics
- On Alpha-Clustering in Nuclear Matter
- On the Contraction of Deuteron Cluster in Li^6
- Four-Hole Structure in Fe Isotopes
- Effective Interaction and Effective Charge for Valence Nucleons in Collective Vibration and Core Polarization