- Inbunden (Hardback)
- Antal sidor
- Cambridge University Press
- 2 tables
- 241 x 177 x 25 mm
- Antal komponenter
- 1043 g
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Lectures on Quantum Mechanics
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'Weinberg's depth of insight and his grasp of the history of his subject made this a fascinating read. ... here is an author who knows his material inside out, and has the skill to present his knowledge, his experience and his opinions with enormous aplomb ... The attention to detail is excellent throughout. The mathematical derivations are complete enough, but occasionally the reader needs to pick up a pencil and paper to fill in a step or two. All chapters except the last are followed by carefully chosen problems. This is an excellent textbook for an advanced course on quantum mechanics. Its approach makes it particularly useful as a precursor to the study of quantum field theory.' A. H. Harker, Physics Today
Review of previous edition: 'Lectures on Quantum Mechanics must be considered among the very best books on the subject for those who have had a good undergraduate introduction. The integration of clearly explained formalism with cogent physical examples is masterful, and the depth of knowledge and insight that Weinberg shares with readers is compelling.' Mark Srednicki, Physics Today
Review of previous edition: 'Steven Weinberg, a Nobel Laureate in Physics, has written an exceptionally clear and coherent graduate-level textbook on modern quantum mechanics. This book presents the physical and mathematical formulations of the theory in a concise and rigorous manner. The equations are all explained step-by-step, and every term is defined. He presents a fresh, integrated approach to teaching this subject with an emphasis on symmetry principles. Weinberg demonstrates his finesse as an excellent teacher and author.' Barry R. Masters, Optics and Photonics News Barry R. Masters, Optics and Photonics News
Review of previous edition: 'Perhaps what distinguishes this book from the competition is its logical coherence and depth, and the care with which it has been crafted. Hardly a word is misplaced and Weinberg's deep understanding of the subject matter means that he leaves no stone unturned: we are asked to accept very little on faith ... it is for the reader to follow Weinberg in discovering the joys of quantum mechanics through a deeper level of understanding: I loved it!' Jeff Forshaw, CERN Courier
Review of previous edition: 'An instant classic ... clear, beautifully structured and replete with insights. This confirms [Weinberg's] reputation as not only one of the greatest theoreticians of the past fifty years, but also one of the most lucid expositors. Pure joy.' The Times Higher Education Supplement
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Steven Weinberg is a member of the Physics and Astronomy Departments at the University of Texas, Austin. His research has covered a broad range of topics in quantum field theory, elementary particle physics and cosmology and has been honored with numerous awards, including the Nobel Prize in Physics, the National Medal of Science and the Heinemann Prize in Mathematical Physics. He is a member of the US National Academy of Sciences, Britain's Royal Society and other academies in the US and abroad. The American Philosophical Society awarded him the Benjamin Franklin medal, with a citation that said he is 'considered by many to be the preeminent theoretical physicist alive in the world today'. His books for physicists include Gravitation and Cosmology, the three-volume work The Quantum Theory of Fields, and most recently, Cosmology. Educated at Cornell University, the University of Copenhagen and Princeton University, he also holds honorary degrees from sixteen other universities. He taught at Columbia University, the University of California, Berkeley, Massachusetts Institute of Technology and Harvard University - where he was Higgins Professor of Physics - before moving to Texas in 1982.
Preface; Notation; 1. Historical introduction; 2. Particle states in a central potential; 3. General principles of quantum mechanics; 4. Spin; 5. Approximations for energy eigenstates; 6. Approximations for time-dependent problems; 7. Potential scattering; 8. General scattering theory; 9. The canonical formalism; 10. Charged particles in electromagnetic fields; 11. The quantum theory of radiation; 12. Entanglement; Author index; Subject index.