Titre : | Introductory quantum mechanics | Type de document : | document imprimé | Auteurs : | R. Liboff, Auteur | Editeur : | San Francisco, CA : Addison-Wesley | Année de publication : | 2003 | Importance : | XVII-878 p. : ill. ; 25 cm | ISBN/ISSN/EAN : | 0-8053-8714-5 | Note générale : | Hardback
| Langues : | Français (fre) | Index. décimale : | 03 Quantum mechanics, field theories, special relativity, many-body | Résumé : | Careful and detailed explanations of challenging concepts, and comprehensive coverage in this quantum mechanics text, aim to set the standard in physics education. Included in this edition is a new chapter on the revolutionary topic of quantum computing. Table of contents: I. ELEMENTARY PRINCIPLES AND APPLICATIONS TO PROBLEMS IN ONE DIMENSION. 1. Review of Concepts of Classical Mechanics. 2. Historical Review: Experiments and Theories. 3. The Postulates of Quantum Mechanics: Operators, Eigenfunctions, and Eigenvalues. 4. Preparatory Concepts: Function Spaces and Hermitian Operators. 5. Time Development, Conservation Theorems, and Parity. 6. Time Development, Conservation Theorems, and Parity. 7. Additional One-Dimensional Problems: Bound and Unbound States. 8. Finite Potential Well, Periodic Lattice, and Some Simple Problems with Two Degrees of Freedom. II. FURTHER DEVELOPMENT OF THE THEORY AND APPLICATIONS TO PROBLEMS IN THREE DIMENSIONS. 9. Angular Momentum. 10. Problems in Three Dimensions. 11. Elements of Matrix Mechanics: Spin Wavefunctions. 12. Application to Atomic, Molecular, Solid-State, and Nuclear Physics: Elements of Quantum Statistics. 13. Perturbation Theory. 14. Scattering in Three Dimensions. 15. Relativistic Quantum Mechanics. List of Symbols. Appendices. Index. List of Tables. Topical Problems.
| Note de contenu : | Notes bibliogr. Index
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Introductory quantum mechanics [document imprimé] / R. Liboff, Auteur . - San Francisco, CA : Addison-Wesley, 2003 . - XVII-878 p. : ill. ; 25 cm. ISBN : 0-8053-8714-5 Hardback
Langues : Français ( fre) Index. décimale : | 03 Quantum mechanics, field theories, special relativity, many-body | Résumé : | Careful and detailed explanations of challenging concepts, and comprehensive coverage in this quantum mechanics text, aim to set the standard in physics education. Included in this edition is a new chapter on the revolutionary topic of quantum computing. Table of contents: I. ELEMENTARY PRINCIPLES AND APPLICATIONS TO PROBLEMS IN ONE DIMENSION. 1. Review of Concepts of Classical Mechanics. 2. Historical Review: Experiments and Theories. 3. The Postulates of Quantum Mechanics: Operators, Eigenfunctions, and Eigenvalues. 4. Preparatory Concepts: Function Spaces and Hermitian Operators. 5. Time Development, Conservation Theorems, and Parity. 6. Time Development, Conservation Theorems, and Parity. 7. Additional One-Dimensional Problems: Bound and Unbound States. 8. Finite Potential Well, Periodic Lattice, and Some Simple Problems with Two Degrees of Freedom. II. FURTHER DEVELOPMENT OF THE THEORY AND APPLICATIONS TO PROBLEMS IN THREE DIMENSIONS. 9. Angular Momentum. 10. Problems in Three Dimensions. 11. Elements of Matrix Mechanics: Spin Wavefunctions. 12. Application to Atomic, Molecular, Solid-State, and Nuclear Physics: Elements of Quantum Statistics. 13. Perturbation Theory. 14. Scattering in Three Dimensions. 15. Relativistic Quantum Mechanics. List of Symbols. Appendices. Index. List of Tables. Topical Problems.
| Note de contenu : | Notes bibliogr. Index
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