On Origin and Physical Meaning of Ward-Like Identity in Dual-Resonance Model
スポンサーリンク
概要
- 論文の詳細を見る
It is shown for the string model that the Ward-like identities in the dual-resonance model proposed by Fubini, Veneziano and Virasoro follow directly from the requirement that the theory must be covariant under an arbitrary transformation of the Lagrange coordinate labeling each constituent part of the string. Thus at least for the string model, these identities are a necessary consequence of a general principle to be satisfied by any consistent physical theory. Our discussion is restricted to the case α(0)=1, i. e., intercept one.
- 理論物理学刊行会の論文
- 1971-11-25
著者
関連論文
- Studies on fertilization in the teleost IV. Effects of aphidicolin and camptothecin on chromosome formation in fertilized medaka eggs
- Highly Stereoselective Synthesis of (E)-Substituted Allylsilanes via the Still-Wittig Rearrangement
- Deformable Sphere Model of Hadrons
- Deformable Sphere Model of Elementary Particles and the Origin of Internal Symmetries
- Deformable Sphere Model of Elementary Particles and Its Relation to Quark
- A Quantum Theory of the Rigid Body in Terms of a Two-Component Spinor
- 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
- Transformation Properties of the Rigid Sphere Wave Functions and Their Relation to the Dirac Spinor
- Rigid Sphere Model of Elementary Particles and the Electromagnetic Field
- Extended Particle Model of Elementary Particles
- On Origin and Physical Meaning of Ward-Like Identity in Dual-Resonance Model
- An Example of Infinite-Component Wave Equation without Space-Like Solution
- Dynamical Theory of Hadron Interactions Based upon Extended Particle Picture. II : Construction of the Hadron Interactions
- Collective Correlation between Vacuum Nucleons and the S-Wave Pion-Nucleon Scattering
- Bose Quarks and Non-Leptonic Weak Interactions
- A Study of Charge Independence in Terms of Kaluza's Five Dimensional Theory
- The chemistry of phenalenium systems. XXXI. The synthesis, dimerization, and trapping of 6-methylenebenzo[cd]pyrene.