Ian J R Aitchison (Univ. of Oxford Prof. Em.), Anthony J.G. Hey (Microsoft Research Connections, Redmond, Washingt
Gauge Theories in Particle Physics, 40th Anniversary Edition: A Practical Introduction, Volume 1
From Relativistic Quantum Mechanics to QED, Fifth Edition
Ian J R Aitchison (Univ. of Oxford Prof. Em.), Anthony J.G. Hey (Microsoft Research Connections, Redmond, Washingt
Gauge Theories in Particle Physics, 40th Anniversary Edition: A Practical Introduction, Volume 1
From Relativistic Quantum Mechanics to QED, Fifth Edition
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The fifth edition of this well-established, highly regarded two-volume set continues to provide a fundamental introduction to advanced particle physics while incorporating substantial new experimental results, especially in the areas of Higgs and top sector physics, as well as CP violation and neutrino oscillations.
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The fifth edition of this well-established, highly regarded two-volume set continues to provide a fundamental introduction to advanced particle physics while incorporating substantial new experimental results, especially in the areas of Higgs and top sector physics, as well as CP violation and neutrino oscillations.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- 5 ed
- Seitenzahl: 368
- Erscheinungstermin: 19. Juni 2024
- Englisch
- Abmessung: 248mm x 173mm x 22mm
- Gewicht: 776g
- ISBN-13: 9781032531748
- ISBN-10: 1032531746
- Artikelnr.: 69936461
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
- Verlag: Taylor & Francis Ltd
- 5 ed
- Seitenzahl: 368
- Erscheinungstermin: 19. Juni 2024
- Englisch
- Abmessung: 248mm x 173mm x 22mm
- Gewicht: 776g
- ISBN-13: 9781032531748
- ISBN-10: 1032531746
- Artikelnr.: 69936461
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
Ian J.R. Aitchison is Emeritus Professor of Physics at the University of Oxford. He has previously held research positions at Brookhaven National Laboratory, Saclay, and the University of Cambridge. He was a visiting professor at the University of Rochester and the University of Washington, and a scientific associate at CERN and SLAC. Dr. Aitchison has published over 90 scientific papers mainly on hadronic physics and quantum field theory. He is the author of two books and joint editor of further two. Anthony J.G. Hey is now Honorary Senior Data Scientist at the UK's National Laboratory at Harwell. He began his career with a doctorate in particle physics from the University of Oxford. After a career in particle physics that included a professorship at the University of Southampton and research positions at Caltech, MIT and CERN, he moved to Computer Science and founded a parallel computing research group. The group were one of the pioneers of distributed memory message-passing computers and helped establish the 'MPI' message passing standard. After leaving Southampton in 2001 he was director of the UK's 'eScience' initiative before becoming a Vice-President in Microsoft Research. He returned to the UK in 2015 as Chief Data Scientist at the U.K.'s Rutherford Appleton Laboratory. He then founded a new 'Scientific Machine Learning' group to apply AI technologies to the 'Big Scientific Data' generated by the Diamond Synchrotron, the ISIS neutron source, and the Central Laser Facility that are located on the Harwell campus. He is the author of over 100 scientific papers on physics and computing and editor of 'The Feynman Lectures on Computation'.
Chapter 1: The particles and forces of the Standard Model. Chapter 2:
Electromagnetism as a Gauge Theory. Chapter 3: Relativistic Quantum
Mechanics. Chapter 4: Lorentz Transformations and Discrete Symmetries.
Chapter 5: Quantum Field Theory I: the Free Scalar Field. Chapter 6:
Quantum Field Theory II: Interacting Scalar Fields. Chapter 7: Quantum
Field Theory III. Chapter 8: Elementary processes. Chapter 9: Deep
inelastic electron-nucleon scattering. Chapter 10: Loops and
Renormalization I: the ABC Theory. Chapter 11: Loops and Renormalization
II: QED. Appendix A: Non-relativistic Quantum Mechanics. Appendix B:
Natural Units. Appendix C: Maxwell's Equations: Choice of Units. Appendix
D: Special Relativity: Invariance and Covariance. Appendix E: Dirac
¿-Function. Appendix F: Contour Integration. Appendix G: Green Functions.
Appendix H: Elements of Non-relativistic Scattering Theory. Appendix I: The
particles and forces of the Standard Model Schrodinger and Heisenberg
Pictures. Appendix J: Dirac Algebra and Trace Identities. Appendix K:
Example of a Cross Section Calculation. Appendix L: Feynman Rules for Tree
Graphs in QED. References.
Electromagnetism as a Gauge Theory. Chapter 3: Relativistic Quantum
Mechanics. Chapter 4: Lorentz Transformations and Discrete Symmetries.
Chapter 5: Quantum Field Theory I: the Free Scalar Field. Chapter 6:
Quantum Field Theory II: Interacting Scalar Fields. Chapter 7: Quantum
Field Theory III. Chapter 8: Elementary processes. Chapter 9: Deep
inelastic electron-nucleon scattering. Chapter 10: Loops and
Renormalization I: the ABC Theory. Chapter 11: Loops and Renormalization
II: QED. Appendix A: Non-relativistic Quantum Mechanics. Appendix B:
Natural Units. Appendix C: Maxwell's Equations: Choice of Units. Appendix
D: Special Relativity: Invariance and Covariance. Appendix E: Dirac
¿-Function. Appendix F: Contour Integration. Appendix G: Green Functions.
Appendix H: Elements of Non-relativistic Scattering Theory. Appendix I: The
particles and forces of the Standard Model Schrodinger and Heisenberg
Pictures. Appendix J: Dirac Algebra and Trace Identities. Appendix K:
Example of a Cross Section Calculation. Appendix L: Feynman Rules for Tree
Graphs in QED. References.
Chapter 1: The particles and forces of the Standard Model. Chapter 2:
Electromagnetism as a Gauge Theory. Chapter 3: Relativistic Quantum
Mechanics. Chapter 4: Lorentz Transformations and Discrete Symmetries.
Chapter 5: Quantum Field Theory I: the Free Scalar Field. Chapter 6:
Quantum Field Theory II: Interacting Scalar Fields. Chapter 7: Quantum
Field Theory III. Chapter 8: Elementary processes. Chapter 9: Deep
inelastic electron-nucleon scattering. Chapter 10: Loops and
Renormalization I: the ABC Theory. Chapter 11: Loops and Renormalization
II: QED. Appendix A: Non-relativistic Quantum Mechanics. Appendix B:
Natural Units. Appendix C: Maxwell's Equations: Choice of Units. Appendix
D: Special Relativity: Invariance and Covariance. Appendix E: Dirac
¿-Function. Appendix F: Contour Integration. Appendix G: Green Functions.
Appendix H: Elements of Non-relativistic Scattering Theory. Appendix I: The
particles and forces of the Standard Model Schrodinger and Heisenberg
Pictures. Appendix J: Dirac Algebra and Trace Identities. Appendix K:
Example of a Cross Section Calculation. Appendix L: Feynman Rules for Tree
Graphs in QED. References.
Electromagnetism as a Gauge Theory. Chapter 3: Relativistic Quantum
Mechanics. Chapter 4: Lorentz Transformations and Discrete Symmetries.
Chapter 5: Quantum Field Theory I: the Free Scalar Field. Chapter 6:
Quantum Field Theory II: Interacting Scalar Fields. Chapter 7: Quantum
Field Theory III. Chapter 8: Elementary processes. Chapter 9: Deep
inelastic electron-nucleon scattering. Chapter 10: Loops and
Renormalization I: the ABC Theory. Chapter 11: Loops and Renormalization
II: QED. Appendix A: Non-relativistic Quantum Mechanics. Appendix B:
Natural Units. Appendix C: Maxwell's Equations: Choice of Units. Appendix
D: Special Relativity: Invariance and Covariance. Appendix E: Dirac
¿-Function. Appendix F: Contour Integration. Appendix G: Green Functions.
Appendix H: Elements of Non-relativistic Scattering Theory. Appendix I: The
particles and forces of the Standard Model Schrodinger and Heisenberg
Pictures. Appendix J: Dirac Algebra and Trace Identities. Appendix K:
Example of a Cross Section Calculation. Appendix L: Feynman Rules for Tree
Graphs in QED. References.