Basic Principles of the Quantization of Fields

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Andrey Nikolaevich Volobuev – Professor of Physics, Samara State Medical University, Department of Physics, Samara, Russia

Series: Physics Research and Technology
BISAC: SCI057000; SCI033000; SCI061000
DOI: https://doi.org/10.52305/EUVT8151

In this book, the basic problems of electromagnetic and gravitational field quantization are investigated. The standard idea of an electromagnetic field quantization is submitted and the inconsistent results following from it are shown. In this book, the problem of quantization of an electromagnetic field is solved on the basis of transition in space of a vector-potential or photon space for the reference system moving with light velocity. Based on the uniform reference system moving with light velocity, the problem of a photon and a mass particle interaction and other physical phenomena is investigated. Based on the “diagram method” of R. Feynman, some standard tasks of quantum electrodynamics are being solved. The limitation of R. Feynman’s method and the impossibility of an accurate solution to a problem of a photon and mass particle interaction in Euclidian space by this method is marked. The opportunity for an accurate solution of Dirac’s equation for an atom of hydrogen, owing to the absence in a problem of photons, is shown.

This book will be useful to students and scientists whose interests lie in the area of electromagnetic and gravitational field quantization.

Table of Contents

Preface

Chapter 1. Introduction

Chapter 2. Electromagnetic Field

Chapter 3. Gravitational Field

Chapter 4. Historical and Modern Problems of the Physics Development

Conclusion

References

Index
 


Author’s ORCID iD

Andrey Nikolaevich Volobuev: 0000-0001-8624-6981

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