Scattering Problem in the Intermediate-coupling Theory, I

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概要

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• The intermediate coupling theory is generalized so as to include dynamical problems such as meson-nucleon collisions. The underlying physical picture, as well as the results obtained, resembles in many respects the dispersion theoretical treatment of nuclear processes. Relations of the method with other approximation methods are investigated.

• 理論物理学刊行会の論文

著者

• Sato Masatomo

  Physics Department Tokyo University Of Education

• Maki Ziro

  Physics Department Tokyo University Of Education

• TOMONAGA Sin-itiro

  Physics Department, Tokyo University of Education

• Maki Ziro

  Physics Department Tokyo Bunrika University

• Sato Masatomo

  Physics Department Tokyo Bunrika University

• Tomonaga Sin-itiro

  Physical Institute Tokyo Bunrika Daigaku

• Tomonaga Sin-itiro

  Physics Department Tokyo University Of Education

• SATO Masatomo

  Physics Department, Tokyo University of Education

• MAKI Ziro

  Physics Department, Tokyo University of Education

関連論文

• Scattering Problem in the Intermediate-coupling Theory, I
• Scattering Problem in the Intermediate-coupling Theory, I
• On a Reletivistically Invariant Formulation of the Quantum Theory of Wave Fields. II. : Case of Interacting Electromagnetic and Electron Fields
• Corrections due to the Reaction of "Cohesive Force Field" to the Elastic Scattering of an Electron, II
• Corrections due to the Reaction of "Cohesive Force Field" to the Elastic Scattering of an Electron. I.
• On Wentzel's Method in the Meson Theory
• On Wentzel's Method in the Meson Theory.
• On the Use of Feynman Amplitudes in the Quantum Field Theory
• A Remark on the Strong Coupling Approximation in Meson-nucleon Scattering
• A Self-Consistent Subtraction Method in the Quantum Field Theory, I
• On the Effect of the Field Reactions on the Interaction of Mesotrons and Nuclear Particles, II
• On a Relativistically Invariant Formulation of the Quantum Theory of Wave Fields. V. : Case of Interacting Electromagnetic and Meson Fields.
• Elementary Theory of Quantum-Mechanical Collective Motion of Particles, I
• On the Elimination of the Auxiliary Condition in the Quantum Electrodynamics II.
• On the Elimination of the Auxiliary Condition in the Quantum Electrodynamics. I.
• Elementary Theory of Quantum-Mechanical Collective Motion of Particles, II
• On the Effect of the Field Reactions on the Interaction of Mesotrons and Nuclear Particles, I
• On a Relativistically Invariant Formulation of the Quantum Theory of Wave Fields. V. : Case of Interacting Electromagnetic and Meson Fields.

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