How energy considerations have shaped our fundamental modern theories of physics: Theory and key historical moments
Issued Date
2024-04-19
Resource Type
Scopus ID
2-s2.0-85205279147
Journal Title
How Energy Considerations Have Shaped Our Fundamental Modern Theories of Physics: Theory and Key Historical Moments
Start Page
1
End Page
267
Rights Holder(s)
SCOPUS
Bibliographic Citation
How Energy Considerations Have Shaped Our Fundamental Modern Theories of Physics: Theory and Key Historical Moments (2024) , 1-267
Suggested Citation
Manoukian E.B. How energy considerations have shaped our fundamental modern theories of physics: Theory and key historical moments. How Energy Considerations Have Shaped Our Fundamental Modern Theories of Physics: Theory and Key Historical Moments (2024) , 1-267. 267. doi:10.1007/978-3-031-51199-8 Retrieved from: https://repository.li.mahidol.ac.th/handle/20.500.14594/101500
Title
How energy considerations have shaped our fundamental modern theories of physics: Theory and key historical moments
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Author's Affiliation
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Abstract
At long last, with sufficient technical details, emphasizing key historical moments, a book that develops all of fundamental modern theoretical physics from energy considerations in a compact form. Starting with a few electron-volts of atoms in the quantum world at low energies extending up to quantum gravity and beyond to the birth of the Universe, readers will experience the entire spectrum of fundamental modern theoretical physics, with one theory leading to another in an integrated unified manner. Energy considerations lead to the development of special and general relativity, quantum field theory, renormalization theory, modern quantum electrodynamics, electro-weak theory, the standard model of particle physics, grand unified theories, string theory, the current standard model of inflationary big bang theory, and even to the birth of the Higgs field, and in developments of quantum gravity. Unfortunately, due to strong specialization within theirfields, students and many practicing physicists are exposed only to parts of the beautiful story of modern fundamental physics. Here the entire story is told! This is a must-read book for graduate students, advanced undergraduate students, instructors and professionals who are interested in all aspects of fundamental modern theoretical physics and key historical moments in its development.