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Many-Body Problems and Quantum Field Theory : An Introduction, Hardcover by M...
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eBay item number:354976895753
Item specifics
- Condition
- Book Title
- Many-Body Problems and Quantum Field Theory : An Introduction
- ISBN
- 9783540213208
- Publication Name
- Many-Body Problems and Quantum Field Theory : an Introduction
- Item Length
- 9.3in
- Publisher
- Springer Berlin / Heidelberg
- Series
- Theoretical and Mathematical Physics Ser.
- Publication Year
- 2004
- Type
- Textbook
- Format
- Hardcover
- Language
- English
- Features
- Revised
- Item Width
- 6.1in
- Item Weight
- 63.8 Oz
- Number of Pages
- Xvi, 438 Pages
About this product
Product Information
Many-Body Problems and Quantum Field Theory introduces the concepts and methods of the topics on a level suitable for graduate students and researchers. The formalism is developed in close conjunction with the description of a number of physical systems: cohesion and dielectric properties of the electron gas, superconductivity, superfluidity, nuclear matter and nucleon pairing, matter and radiation, interaction of fields by particle exchange and mass generation. Emphasis is placed on analogies between the various systems rather than on advanced or specialized aspects, with the purpose of illustrating common ideas within different domains of physics. Starting from a basic knowledge of quantum mechanics and classical electromagnetism, the exposition is self-contained and explicitly details all steps of the derivations. The new edition features a subtantially new treatment of nucleon pairing.
Product Identifiers
Publisher
Springer Berlin / Heidelberg
ISBN-10
3540213201
ISBN-13
9783540213208
eBay Product ID (ePID)
30874796
Product Key Features
Publication Name
Many-Body Problems and Quantum Field Theory : an Introduction
Format
Hardcover
Language
English
Features
Revised
Series
Theoretical and Mathematical Physics Ser.
Publication Year
2004
Type
Textbook
Number of Pages
Xvi, 438 Pages
Dimensions
Item Length
9.3in
Item Width
6.1in
Item Weight
63.8 Oz
Additional Product Features
Number of Volumes
1 Vol.
Lc Classification Number
Qc173.96-174.52
Edition Description
Revised Edition
Edition Number
2
Reviews
"The book is aimed to provide a reasonably broad and nevertheless high level of knowledge to Ph.D. students. I think that this challenge is truly reached. The authors achieve a good balance between formal developments and physical applications. The former are limited to the essential, and the connection between the mathematical representations and the physical concepts and paradigms is pedagogically presented. The latter are well chosen and belong, I believe, to the basic culture of every Ph.D. student, too often driven to specialization. [...] In conclusion, this book provides an excellent introduction to quantum field theory and its applications. It should be considered as one of the favourite books for any Ph.D. student and as a good reference book for more advanced physicists." (Joseph Cugnon, Physicalia, 25/3, 2003)"[...] came out of a graduate course that presented a unified treatment of condensed-matter, nuclear, and particle theory. The course emphasized the similarities, sometimes even the identity, of the methods used in those fields a wonderful idea, because students are often led to believe that the fields are disparate and never meet." (Physics Today, April 2003)"Very well written and has a strong pedagogical style: mathematical steps in the explanations are complete and timely examples worked out in detail… I applaud the authors attempt to bring together the threads of many-body theory, which forms the cornerstone of traditionally distinct problems, into a readable textbook for students… and reference for the practitioner." (The Physicist)From the reviews of the second edition:"The book provides a nice unified approach to the quantum field theory of the solid state and the nucleon. … The book applies the same, consistent language for the different and broad fields of physics. This approach makes the book attractive to beginners who want to learn some more advanced methods and … need to see a range of applications … . The book can be used as an introduction for beginners in the field, advanced researchers can use it as a look up reference." (Andreas Knorr, Zentralblatt MATH, Vol. 1065, 2005), "The book is aimed to provide a reasonably broad and nevertheless high level of knowledge to Ph.D. students. I think that this challenge is truly reached. The authors achieve a good balance between formal developments and physical applications. The former are limited to the essential, and the connection between the mathematical representations and the physical concepts and paradigms is pedagogically presented. The latter are well chosen and belong, I believe, to the basic culture of every Ph.D. student, too often driven to specialization. [...] In conclusion, this book provides an excellent introduction to quantum field theory and its applications. It should be considered as one of the favourite books for any Ph.D. student and as a good reference book for more advanced physicists." (Joseph Cugnon, Physicalia, 25/3, 2003) "[...] came out of a graduate course that presented a unified treatment of condensed-matter, nuclear, and particle theory. The course emphasized the similarities, sometimes even the identity, of the methods used in those fields a? a wonderful idea, because students are often led to believe that the fields are disparate and never meet." (Physics Today, April 2003) "Very well written and has a strong pedagogical style: mathematical steps in the explanations are complete and timely examples worked out in detaila? I applaud the authors attempt to bring together the threads of many-body theory, which forms the cornerstone of traditionally distinct problems, into a readable textbook for studentsa? and reference for the practitioner." (The Physicist) From the reviews of the second edition: "The book provides a nice unified approach to the quantum field theory of the solid state and the nucleon. a? The book applies the same, consistent language for the different and broad fields of physics. This approach makes the book attractive to beginners who want to learn some more advanced methods and a? need to see a range of applications a? . The book can be used as an introduction for beginners in the field, advanced researchers can use it as a look up reference." (Andreas Knorr, Zentralblatt MATH, Vol. 1065, 2005), "The book is aimed to provide a reasonably broad and nevertheless high level of knowledge to Ph.D. students. I think that this challenge is truly reached. The authors achieve a good balance between formal developments and physical applications. The former are limited to the essential, and the connection between the mathematical representations and the physical concepts and paradigms is pedagogically presented. The latter are well chosen and belong, I believe, to the basic culture of every Ph.D. student, too often driven to specialization. [...] In conclusion, this book provides an excellent introduction to quantum field theory and its applications. It should be considered as one of the favourite books for any Ph.D. student and as a good reference book for more advanced physicists." (Joseph Cugnon, Physicalia, 25/3, 2003) "[...] came out of a graduate course that presented a unified treatment of condensed-matter, nuclear, and particle theory. The course emphasized the similarities, sometimes even the identity, of the methods used in those fields - a wonderful idea, because students are often led to believe that the fields are disparate and never meet." (Physics Today, April 2003) "Very well written and has a strong pedagogical style: mathematical steps in the explanations are complete and timely examples worked out in detail... I applaud the authors attempt to bring together the threads of many-body theory, which forms the cornerstone of traditionally distinct problems, into a readable textbook for students... and reference for the practitioner." (The Physicist) From the reviews of the second edition: "The book provides a nice unified approach to the quantum field theory of the solid state and the nucleon. ... The book applies the same, consistent language for the different and broad fields of physics. This approach makes the book attractive to beginners who want to learn some more advanced methods and ... need to see a range of applications ... . The book can be used as an introduction for beginners in the field, advanced researchers can use it as a look up reference." (Andreas Knorr, Zentralblatt MATH, Vol. 1065, 2005), "The book is aimed to provide a reasonably broad and nevertheless high level of knowledge to Ph.D. students. I think that this challenge is truly reached. The authors achieve a good balance between formal developments and physical applications. The former are limited to the essential, and the connection between the mathematical representations and the physical concepts and paradigms is pedagogically presented. The latter are well chosen and belong, I believe, to the basic culture of every Ph.D. student, too often driven to specialization. [...] In conclusion, this book provides an excellent introduction to quantum field theory and its applications. It should be considered as one of the favourite books for any Ph.D. student and as a good reference book for more advanced physicists." (Joseph Cugnon, Physicalia, 25/3, 2003) "[...] came out of a graduate course that presented a unified treatment of condensed-matter, nuclear, and particle theory. The course emphasized the similarities, sometimes even the identity, of the methods used in those fields a wonderful idea, because students are often led to believe that the fields are disparate and never meet." (Physics Today, April 2003) "Very well written and has a strong pedagogical style: mathematical steps in the explanations are complete and timely examples worked out in detail… I applaud the authors attempt to bring together the threads of many-body theory, which forms the cornerstone of traditionally distinct problems, into a readable textbook for students… and reference for the practitioner." (The Physicist) From the reviews of the second edition: "The book provides a nice unified approach to the quantum field theory of the solid state and the nucleon. … The book applies the same, consistent language for the different and broad fields of physics. This approach makes the book attractive to beginners who want to learn some more advanced methods and … need to see a range of applications … . The book can be used as an introduction for beginners in the field, advanced researchers can use it as a look up reference." (Andreas Knorr, Zentralblatt MATH, Vol. 1065, 2005), "The book is aimed to provide a reasonably broad and nevertheless high level of knowledge to Ph.D. students. I think that this challenge is truly reached. The authors achieve a good balance between formal developments and physical applications. The former are limited to the essential, and the connection between the mathematical representations and the physical concepts and paradigms is pedagogically presented. The latter are well chosen and belong, I believe, to the basic culture of every Ph.D. student, too often driven to specialization. [...] In conclusion, this book provides an excellent introduction to quantum field theory and its applications. It should be considered as one of the favourite books for any Ph.D. student and as a good reference book for more advanced physicists." (Joseph Cugnon, Physicalia, 25/3, 2003) "[...] came out of a graduate course that presented a unified treatment of condensed-matter, nuclear, and particle theory. The course emphasized the similarities, sometimes even the identity, of the methods used in those fields - a wonderful idea, because students are often led to believe that the fields are disparate and never meet." (Physics Today, April 2003) "Very well written and has a strong pedagogical style: mathematical steps in the explanations are complete and timely examples worked out in detail... I applaud the authors attempt to bring together the threads of many-body theory, which forms the cornerstone of traditionally distinct problems, into a readable textbook for students... and reference for the practitioner." (The Physicist) From the reviews of the second edition: "The book provides a nice unified approach to the quantum field theory of the solid state and the nucleon. ... The book applies the same, consistent language for the different and broad fields of physics. This approach makes the book attractive to beginners who want to learn some more advanced methods and ... need to see arange of applications ... . The book can be used as an introduction for beginners in the field, advanced researchers can use it as a look up reference." (Andreas Knorr, Zentralblatt MATH, Vol. 1065, 2005)
Table of Content
1. Classical Fields and Their Associated Particles.- 2. Fermions and Bosons.- 3. Systems with Variable Particle Number.- 4. Electron Gas.- 5. Fermion Pairing and Superconductivity.- 6. Nucleon Pairing and the Structure of the Nucleus.- 7. The Superfluidity of Liquid Helium.- 8. Quantum Fields.- 9. Perturbative Methods in Field Theory.- 10. Perturbative Methods in Many-Body Problems.
Copyright Date
2004
Topic
Physics / Quantum Theory, Life Sciences / Human Anatomy & Physiology, Physics / Mathematical & Computational, Physics / Nuclear
Lccn
2004-103456
Dewey Decimal
530.14/4
Intended Audience
Scholarly & Professional
Dewey Edition
21
Illustrated
Yes
Genre
Science
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eBay item number:354976895753
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