The Standard Model of Quantum Physics in Clifford Algebra
Nonfiction, Science & Nature, Science, Physics, Nuclear Physics, Quantum Theory
| Author: | Claude Daviau, Jacques Bertrand | ISBN: | 9789814719889 |
| Publisher: | World Scientific Publishing Company | Publication: | October 8, 2015 |
| Imprint: | WSPC | Language: | English |
| Author: | Claude Daviau, Jacques Bertrand |
| ISBN: | 9789814719889 |
| Publisher: | World Scientific Publishing Company |
| Publication: | October 8, 2015 |
| Imprint: | WSPC |
| Language: | English |
We extend to gravitation our previous study of a quantum wave for all particles and antiparticles of each generation (electron + neutrino + u and d quarks for instance). This wave equation is form invariant under Cl3*, then relativistic invariant. It is gauge invariant under the gauge group of the standard model, with a mass term: this was impossible before, and the consequence was an impossibility to link gauge interactions and gravitation.
Contents:
- Foreword
- Introduction
- Clifford Algebras
- Dirac Equation
- The Homogeneous Nonlinear Wave Equation
- Invariance of Electromagnetic Laws
- Miscellaneous
- Electro-Weak Interactions: The Lepton Case
- Electro-Weak and Strong Interactions
- Magnetic Monopoles
- Inertia and Gravitation
- Conclusion
- Appendix A: Calculations in Clifford Algebras
- Appendix B: Electron+Neutrino+Quarks
- Appendix C: The Hydrogen Atom
- Bibliography
- Index
Readership: Graduate students and professionals in particle physics or mathematical physics.
Key Features:
- Presents an argument that gravitation is compatible with quantum physics
- The gauge group of the standard model is obtained from the geometry of space-time
- Magnetic monopoles are joined to this new frame
We extend to gravitation our previous study of a quantum wave for all particles and antiparticles of each generation (electron + neutrino + u and d quarks for instance). This wave equation is form invariant under Cl3*, then relativistic invariant. It is gauge invariant under the gauge group of the standard model, with a mass term: this was impossible before, and the consequence was an impossibility to link gauge interactions and gravitation.
Contents:
- Foreword
- Introduction
- Clifford Algebras
- Dirac Equation
- The Homogeneous Nonlinear Wave Equation
- Invariance of Electromagnetic Laws
- Miscellaneous
- Electro-Weak Interactions: The Lepton Case
- Electro-Weak and Strong Interactions
- Magnetic Monopoles
- Inertia and Gravitation
- Conclusion
- Appendix A: Calculations in Clifford Algebras
- Appendix B: Electron+Neutrino+Quarks
- Appendix C: The Hydrogen Atom
- Bibliography
- Index
Readership: Graduate students and professionals in particle physics or mathematical physics.
Key Features:
- Presents an argument that gravitation is compatible with quantum physics
- The gauge group of the standard model is obtained from the geometry of space-time
- Magnetic monopoles are joined to this new frame
