Quantum Mechanics
Verlag | Cambridge University Press |
Auflage | 2021 |
Seiten | 500 |
Format | 19,4 x 25,3 x 2,4 cm |
Gewicht | 1120 g |
Artikeltyp | Englisches Buch |
EAN | 9781108423335 |
Bestell-Nr | 10842333UA |
Presents a distinctive and modern treatment of quantum mechanics, including detailed chapters on group theory and quantum entanglement.
Klappentext:
Designed for a two-semester advanced undergraduate or graduate level course, this distinctive and modern textbook provides students with the physical intuition and mathematical skills to tackle even complex problems in quantum mechanics with ease and fluency. Beginning with a detailed introduction to quantum states and Dirac notation, the book then develops the overarching theoretical framework of quantum mechanics, before explaining physical quantum mechanical properties such as angular momentum and spin. Symmetries and groups in quantum mechanics, important components of current research, are covered at length. The second part of the text focuses on applications, and includes a detailed chapter on quantum entanglement, one of the most exciting modern applications of quantum mechanics, and of key importance in quantum information and computation. Numerous exercises are interspersed throughout the text, expanding upon key concepts and further developing students' understanding. A fully worked solutions manual and lecture slides are available for instructors.
Inhaltsverzeichnis:
Preface; Part I. Basics: 1. Stories and Thoughts about Quantum Mechanics; 2. Quantum States; 3. Observables; 4. Dynamics; 5. Potentials; 6. Harmonic Oscillator; 7. Systems in Three Spatial Dimensions; 8. Angular Momentum; 9. Spin; 10. Addition of Angular Momenta; 11. Central Potentials; 12. Hydrogen Atom; 13. Identical Particles; 14. Symmetries in Quantum Mechanics; Part II. Applications: 15. Quantum Entanglement; 16. Time-independent Perturbation Theory; 17. Calculation Methods Beyond Perturbation Theory; 18. Time-dependent Perturbation Theory; 19. Quantum Scattering Theory; Index.
Rezension:
'Berera and Del Debbio do a wonderful job of walking the reader through the mathematics of quantum theory, never shying away from the necessary complexities while keeping things as simple as they can be.' David Tong, University of Cambridge