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Quantum mechanics and path integrals / Richard P. Feynman, Albert R. Hibbs, and Daniel F. Styer.

By: Feynman, Richard P. (Richard Phillips), 1918-1988.
Contributor(s): Hibbs, Albert R [author] | Styer, Daniel F [author].
Material type: materialTypeLabelBookCopyright date: Mineola, N.Y. : Dover Publications , 2010Edition: Emended edition.Description: xii, 371 pages : illustrations ; 24 cm.ISBN: 9780486477220; 0486477223.Subject(s): Quantum theory | Teoría cuánticaDDC classification: 530.12 Online resources: Publisher description | Table of contents only | Contributor biographical information
Partial contents:
1. The Fundamental Concepts of Quantum Mechanics --2. The Quantum-mechanical Law of Motion -- 3. Developing the Concepts with Special Examples -- 4. The Schrodinger Description of Quantum Mechanics -- 5. Measurements and Operators -- 6. The Perturbation Method in Quantum Mechanics -- 7. Transition Elements -- 8. Harmonic Oscillators --9. Quantum Electrodynamics -- 10. Statistical Mechanics -- 11. The Variational Method -- 12. Other Problems in Probability.
Abstract: From astrophysics to condensed matter theory, nearly all of modern physics employs the path integral technique. In this presentation, the developer of path integrals and one of the best-known scientists of all time, Nobel Prize winning physicist Richard P. Feynman, presents unique insights into this method and its applications. Avoiding dense, complicated descriptions, Feynman articulates his celebrated theory in a clear, concise manner, maintaining a perfect balance between mathematics and physics. This emended edition of the original 1965 publication corrects hundreds of typographical errors and recasts many equations for clearer comprehension. It retains the original's verve and spirit, and it is approved and endorsed by the Feynman family. The opening chapters explore the fundamental concepts of quantum mechanics and introduce path integrals. Subsequent chapters cover more advanced topics, including the perturbation method, quantum electrodynamics, and the relation of path integrals to statistical mechanics. In addition to its merit as a text for graduate courses in physics, this volume serves as an excellent resource for professionals.
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Item type Current location Call number Copy number Status Date due Item holds
Libro académico Libro académico Biblioteca del Campus
530.12 F435q 2010 (Browse shelf) Ej. 1 Available
Total holds: 0

Originally published: Emended ed. New York : McGraw-Hill, 2005.

Includes index.

Includes bibliographical references.

1. The Fundamental Concepts of Quantum Mechanics --2. The Quantum-mechanical Law of Motion -- 3. Developing the Concepts with Special Examples -- 4. The Schrodinger Description of Quantum Mechanics -- 5. Measurements and Operators -- 6. The Perturbation Method in Quantum Mechanics -- 7. Transition Elements -- 8. Harmonic Oscillators --9. Quantum Electrodynamics -- 10. Statistical Mechanics -- 11. The Variational Method -- 12. Other Problems in Probability.

From astrophysics to condensed matter theory, nearly all of modern physics employs the path integral technique. In this presentation, the developer of path integrals and one of the best-known scientists of all time, Nobel Prize winning physicist Richard P. Feynman, presents unique insights into this method and its applications. Avoiding dense, complicated descriptions, Feynman articulates his celebrated theory in a clear, concise manner, maintaining a perfect balance between mathematics and physics.
This emended edition of the original 1965 publication corrects hundreds of typographical errors and recasts many equations for clearer comprehension. It retains the original's verve and spirit, and it is approved and endorsed by the Feynman family. The opening chapters explore the fundamental concepts of quantum mechanics and introduce path integrals. Subsequent chapters cover more advanced topics, including the perturbation method, quantum electrodynamics, and the relation of path integrals to statistical mechanics. In addition to its merit as a text for graduate courses in physics, this volume serves as an excellent resource for professionals.

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