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Quantum Edgard Elbaz

Quantum By Edgard Elbaz

Quantum by Edgard Elbaz


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Summary

A new approach to the teaching of quantum physics. The second part of the book is devoted to quantum fields: Boson fields including Higgs fields, Dirac's theory of Fermion fields, quantum electrodynamic and quantum chromodynamics.

Quantum Summary

Quantum: The Quantum Theory of Particles, Fields and Cosmology by Edgard Elbaz

A new approach to the teaching of quantum physics. The first seven chapters present nonrelativistic quantum mechanics and its interpretation, as well as perturbations and scattering theory. While including Dirac's and Feynman's formalisms, the chapter on symmetry also treats gauge transformations. The quantum theory of angular momentum includes the isospin of leptons and quarks and uses as a new tool the graphical spin algebra. The second part of the book is devoted to quantum fields: Boson fields including Higgs fields, Dirac's theory of Fermion fields, quantum electrodynamic and quantum chromodynamics. The whole is rounded off by a brief review guaranteed to raise the students' interests in quantum cosmology.
Readers will also find many detailed worked examples and numerous problems designed to test their own understanding.

Table of Contents

1. Particles and Waves.- 1. Generalized Coordinates.- 2. Energy Conservation.- 3. Principle of Virtual Work.- 4. Lagrange Equations.- 5. Hamilton's Principle of Least Action.- 6. Conservation Laws.- 7. The Center of Gravity Theorem.- 8. Symmetry and Invariance.- 9. Hamilton's Equations.- 10. Maupertuis' Least-Action Principle.- 11. Canonical Transformations.- 12. Poisson's Equations.- 13. Hamilton-Jacobi Equations.- 14. Propagation Equation of Geometric Optics.- 15. Mechanics and Waves.- 16. Wave Mechanics.- 17. Analytical Mechanics - Schematic Summary.- 2. Wave Mechanics.- 1. Conservative Systems.- 2. Interpretations of the Wave Function.- 3. Mean Values of Observables.- 4. Heisenberg's Uncertainty Relation.- 5. Interpretations of Wave Mechanics.- 6. Wave Mechanics - Schematic Summary.- 3. One-Dimensional Systems.- 1. Motion of the Center of Mass.- 2. General Properties of the Wave Function.- 3. Stationary Schroedinger Equation.- 4. Semi-classical (W.K.B.) Approximation.- 4. Dirac Formalism.- 1. Postulates of Quantum Mechanics.- 2. Dirac Formalism.- 3. Observables.- 4. Complete Set of Compatible Observables.- 5. Heisenberg's Uncertainty Relations.- 6. Dirac Formalism - Schematic Summary.- 5. Representations.- 1. Wave Mechanics.- 2. Matrix Mechanics.- 3. Wave Mechanics - Schematic Summary.- 4. Matrix Mechanics - Schematic Summary.- 6. Quantum Dynamics.- 1. Time-Evolution Operator.- 2. Two Different Descriptions of Quantum Dynamics.- 3. The Correspondence Principle.- 4. Intermediate Description.- 5. Interpretation of Decoherence in Quantum Mechanics.- 6. Quantum Dynamics - Schematic Summary.- 7. Path Integrals.- 1. Evolution of the Wave Function.- 2. Path Integrals.- 3. Equivalence to the Schroedinger Equation.- 4. Action in Quantum Physics.- 5. Quantum Paths and Fractals.- 6. Path Integrals - Schematic Summary.- 8. Symmetries and Invariances.- 1. Unitary Transformations.- 2. Anti-unitary Transformations.- 3. Gauge Transformations.- 9. Angular Momentum.- 1. General Definition.- 2. Standard Representation.- 3. Examples of Angular Momenta.- 4. Magnetic Moments.- 10. Addition Theorems.- 1. Coupling of Two Angular Momenta.- 2. Clebsch-Gordan Coefficients.- 3. 3jm Coefficients.- 4. Coupling of n Angular Momenta.- 5. Change of Coupling Mode.- 6. Introduction to the Graphical Method.- Appendix 1: Table of Selected 3jm and 6j Coefficients.- Appendix 2: Diquark.- 11. Rotations.- 1. Introduction.- 2. Infinitesimal Rotations.- 3. Finite Rotations.- 4. Standard Representation.- 5. Fundamental Theorem of Pinch.- 6. Transformation Rules of Graphical Spin Algebra.- 12. Spherical Harmonics.- 1. Orbital Angular Momentum.- 2. Spherical Harmonic Y?o.- 3. General Statement.- 4. Parity.- 5. Orthonormalization and Closure.- 6. Graphical Representation.- 7. Integration of Three Spherical Harmonics.- 8. Contraction.- 9. Addition Theorem.- 10. Coupled Spherical Harmonics.- 11. Solid Spherical Harmonics.- 12.Schroedinger Equation in a Central Potential.- 13. Irreducible Tensor Operators.- 1. Definitions.- 2. Graphical Representation.- 3. Hermitian Conjugate.- 4. Scalar Product.- 5. Tensor Product.- 6. Standardization of a Vector Operator.- 7. Wigner-Eckart Theorem.- 8. Magnetic Moments.- 9. Density Operator.- 10. Differential Operators.- 11. Irreducible Tensor Operators - Schematic Summary.- Appendix 1: Reduced Matrix Elements.- Appendix 2: Graphical Vector Analysis.- 14. Perturbations.- 1. Stationary Perturbations.- 2. Variational Method.- 3. Time-Dependent Perturbations.- 15. Scattering of Particles.- 1. Scattering Operator.- 2. Transition Operator.- 3. Differential Cross Section.- 4. Scattering Amplitude and Interaction Potential.- 5. Lippmann-Schwinger Equations.- 6. Phase-Shift Method.- 7. Angular Distribution and Polarization.- 8. Scattering of Particles - Schematic Summary.- 16. Second Quantization.- 1. One-Dimensional Harmonic Oscillator.- 2. The p-Dimensional Harmonic Oscillator.- 3. Bosons and Fermions.- 4. Fermion Systems.- 5. Boson Systems.- 6. Simple Harmonic Oscillator - Schematic Summary.- 7. Second Quantization - Schematic Summary.- Appendix: The q-Commutators.- 17. Boson Fields.- 1. Classical Field Theory.- 2. Massive Scalar Fields.- 3. Higgs Fields.- 4. The Electromagnetic Field.- 5. Quantization of a Boson Field.- 18. Fermion Fields.- 1. Dirac Equation of a Free Particle.- 2. Dirac ? Matrices.- 3. The Adjoint Dirac Equation.- 4. Lagrangian Density and Field Equations.- 5. Probability Density.- 6. Gauge Invariance and Noether's Theorem.- 7. Interaction with the Electromagnetic Field.- 8. Local Gauge Invariance.- 9. Electron Spin.- 10. Solutions for a Free Electron.- 11. Charge Conjugation.- 12. Hydrogen Atom.- 13. Coulomb Elastic Scattering.- 14. Quantization of a Fermion Field.- 15. Dirac Equation - Schematic Summary.- 19. Quantum X-Dynamics.- 1. Quantum Electrodynamics.- 2. Elementary Introduction to Quantum Chromodynamics.- 3. The GSW Standard Model.- 4. Grand Unification Theories.- Appendix: Introduction to Supersymmetry.- 20. Quantum Cosmology.- 1. Introduction.- 2. Essentials of General Relativity.- 3. The Correspondence Principle.- 4. Essentials of the Standard Model of Cosmology.- 5. Hamiltonian Statement of Einstein Equations.- 6. Fundamental Equation of Quantum Cosmology.- 7. Quantization in the Mini-Superspaces.- Exercises.- References.- Author Index.

Additional information

NPB9783642643279
9783642643279
3642643272
Quantum: The Quantum Theory of Particles, Fields and Cosmology by Edgard Elbaz
New
Paperback
Springer-Verlag Berlin and Heidelberg GmbH & Co. KG
2011-09-18
602
N/A
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