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Matter Particled - Patterns, Structure and Dynamics : Selected Research Papers of Yuval Ne'Eman.
This unique volume contains a selection of more than 80 of Yuval Ne'eman's papers, which represent his huge contribution to a large number of aspects of theoretical physics. The works span more than four decades, from unitary symmetry and quarks to questions of complexity in biological sys...
| Clasificación: | Libro Electrónico |
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| Autor principal: | |
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Singapore :
World Scientific Publishing Company,
2006.
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| Colección: | World Scientific series in 20th century physics.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Preface ; Introduction and Biographical Notes ; Chapter 1: SU(3). Quarks and Symmetry Breaking ; 1.1 The Classification and Structure of Hadrons ; 1.2 Derivation of Strong Interactions from a Gauge Invariance ; 1.3 Baryon Charge and R-Inversion in the Octet Model.
- 1.4 Protonium Two-Mesons Annihilation 1.5 The Fifth Interaction: Origins of the Mass Breaking Asymmetry ; 1.6 The Symmetry Breaking Interaction ; 1.7 Rare Decays as Clues to the Understanding of the Fifth Interaction (Generating the Generations) ; 1.8 Primitive Particle Model.
- Chapter 2: Algebraic Theory of Particle Physics and Spectrum Generating Algebras 2.1 Current-Generated Algebras ; 2.2 Role of Non-Compact Groups ; 2.3 Series of Hadron Energy Levels as Representations of Non-Compact Groups ; 2.4 Band Spectra Generated by Non-Compact Algebra.
- 2.5 The Algebra of Scalar and Vector Vertex Strengths in Regge Residues 2.6 Possible Vanishing of Strong Interaction Cross-Section at Infinite Energies ; 2.7 Suppression of Regge Cuts at t = 0 due to Universality of Factorized Residues ; 2.8 Symmetries Related to the Quark Model.
- 2.9 The Spectrum-Generating Groups Program and the String Chapter 3: Supersymmetry and Supergravity ; 3.1 Graded Lie Algebras in Mathematics and Physics (Bose-Fermi Symmetry) ; 3.2 Affine Extensions of Supersymmetry: The Finite Case.