Chapter 1 A Unified Model for Elementary Particles : Nagoya Model(Part III Further Outlook for the Theory of Elementary Particles)
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概要
- 論文の詳細を見る
By extending the Sakata model, a unified model for elementary particles is proposed, the basic particles in the Sakata model are assumed to be constructed of the lepton and B^+, which is regarded as a new kind of matter. The full symmetry among three basic particles and the symmetrical property of the weak interactions which was pointed out by Gamba, Marshak and Okubo come automatically of this model. The nature of B^+ and the new mechanics which accounts for the binding of B^+ to the lepton will be the central problem to be studied in the future.
- 理論物理学刊行会の論文
著者
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Nakagawa Masami
Institute For Theoretical Physics Nagoya University
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Maki Ziro
Department Of Physics Nagoya University
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Maki Ziro
Institute For Theoretical Physics Nagoya University
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OHNUKI Yoshio
Institute for Theoretical Physics, Nagoya University
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SAKATA Shoichi
Institute for Theoretical Physics, Nagoya University
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Sakata Shoichi
Department Of Physics Nagoya University
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Ohnuki Yoshio
Institute For Nuclear Study University Of Tokyo : Department Of Physics Nagoya University
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Sakata Shoichi
Institute For Theoretical Physics Nagoya University
関連論文
- Left-Right Symmetric Model from Geometric Formulation of Gauge Theory in M_4×Z_2×Z_2 : Particles and Fields
- Grand Unification from Gauge Theory in M_4×Z_N : Particles and Fields
- The Mass and the Life Time of the Mesotron
- Chapter 2 On the Nature of B-Matter in the Nagoya Model(Part III Further Outlook for the Theory of Elementary Particles)
- Mass and Mean Life-Time of the Meson
- On the Interaction of Elementary Particles. III
- On the Interaction of Elementary Particles. II
- Chapter 1 A Unified Model for Elementary Particles : Nagoya Model(Part III Further Outlook for the Theory of Elementary Particles)
- A Unified Model for Elementary Particles
- Coupling Constants in β-Decay and Nucleon Structure
- An Attempt at Reformulating Pion-Nucleon Interaction, I : Introduction of K-Space
- The Annihilation of Antinucleon according to the Previous Theory
- Pion-Nucleon Interaction according to the Previous Theory
- An Attempt of Generalizing the Invariance of the Theory under the Charge Conjugation
- Chapter 1 The Sakata Model(Part II. The Composite Model for Elementary Particles)
- Remarks on a New Concept of Elementary Particles and the Method of the Composite Model
- General Theory of Chiral Transformations
- Chapter 5 Weak Interaction in the Sakata Model(Part II. The Composite Model for Elementary Particles)
- An Approach to the Non-Leptonic Decays of Hyperons
- On the Universal Fermi Interaction
- On the Conservation of Heavy Particles
- On a Theory of a Composite Model of Elementary Particles
- A Note on the Leptonic Decay of Hyperons
- A Possible Scheme for the Nonleptonic Decays of Hyperons
- The "fourth" Baryon, Sakata Model and Modified B-L Symmetry. I
- The "fourth" Baryon, Sakata Model and Modified B-L Symmetry. II
- Quartet Scheme for Elementary Particles
- The Non-leptonic Decays of Hyperons
- On the Wave Equation of Meson
- On the Correlations between Mesons and Yukawa Particles
- Connection Between the Meson Decay and the Beta-Decay
- On the Establishment of the Yukawa Theory
- Appendix I On a Composite Model for the New Particles
- On a Composite Model for the New Particles
- The Spontaneous Disintegration of the Neutral Mesotron : Neutretto
- On the Applicability of the Method of the Mixed Fields in the Theory of the Elementary Particles
- The Theory of the Interaction of Elementary Particles. : I. The Method of the Theory of Elementary Particles.
- On Yukawa's Theory of the Beta-Disintegration and the Lifetime of the Meson
- 1. Toward a New Concept of Elementary Particles
- On the Correlations between Mesons and Yukawa Particles.
- On the Structure of the Interaction of the Elementary Particles, I : The Renormalizability of the Interactions
- On the Theory of the Meson Decay
- On the Structure of the Elementary Particles
- Chapter 4 Quantum Mechanical Approach to the Composite Model of Elementary Particles(Part II. The Composite Model for Elementary Particles)
- Left-Right Symmetric Model from Geometric Formulation of Gauge Theory in M^4 × Z^2 × Z^2
- Grand Unification from Gauge Theory in M_4×Z_N : Particles and Fields