Note on the Collision Matrix for the Nuclear Reactions, I
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概要
- 論文の詳細を見る
The relation between the general theory of nuclear reactions due to Kapur and Peierls and that due to Wigner and Eisenbud is discussed. It is shown that the exact transformation of the R-matrix into the collision matrix yields the expression for the latter which is identical term by term with that obtained by Kapur and Peierls. The intuitive interpretation of the transformation procedure is given in terms of the "multiple reflexion interpretation".
- 理論物理学刊行会の論文
- 1958-01-25
著者
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Kawai Mitsuji
The Institute For Solid State Physics University Of Tokyo
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Kawai Mitsuji
The Institute For The Solid State Physics University Of Tokyo
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Nagasaki Masayuki
Department Of Physics Rikkyo University
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Nagasaki Masayuki
Department of Physics, Tokyo University of Education
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- Away Side Large P_T Jets in Fireball Model
- Fireball Model Analyses of Small and Large Transverse Momentum Pion Distributions at ISR Energies
- Particle Production Associated with High P_T Pion and Fire Balls
- Cloudy Crystal Ball Model for Neutron Reactions at Higher Energies
- On the Fundamental Concepts in the Theory of Elementary Particles. II : Present Problems
- Note on the Collision Matrix for the Nuclear Reactions, I
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- The Cloudy Crystal Ball Model for 14 Mev Neutron Reactions
- On the Multiplicity Distribution in Hadronic Interaction at High Energy
- Critical Temperature of Nuclear Matter
- Remarks on "Semirelativistic Quark Model for Mesons"
- Level Structure of Hadrons
- On the Difficulty in the Non-Relativistic Treatment of the Composite Model of Elementary Particles
- Excitation of Hadronic Matter and H-quantum
- Remarks on the Bound State Problem of Dirac Particles in Connection with the Non-Relativistic Quark Model
- "Centauro" Phenomenon and the Decay of UH-Quantum
- Angular Distribution of p-p Elastic Scattering at High Energies and Radius of the Hard Core
- Large Transverse Momentum Correlations and Fireball Model
- Angular Distribution of p-p Elastic Scattering at High Energies and Distribution of Absorption
- Short Range Two-Particle Correlations and Decay Properties of Fire Ball
- The Dipole Giant Resonance in the High Energy Proton Scattering
- Angular Distribution of p-p Scattering at High Energies and Radius of the Hard Core