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Laboratory-Division Quantum Electrodynamics of Self-Organizing Systems and Dynamical Properties of Time
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Copyright © 2001
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Main publications. Abstracts and contents of the monographs

The Problem of Electron and Superluminal Signals

(Contemporary Fundamental Physics)

by V. P. Oleinik

Nova Science Publishers, Inc., New York, June 2001, 229 pages




Abstract. The own field of electron, treated as an open self-organizing system, is a bearer of superluminal signals, which may be used for the creation of qualitatively new systems of information transfer. The course of time in some region of space depends on the character of physical processes occurring in it and thus one can control time by changing its course with the aid of material processes. These conclusions are not in conflict with the relativity theory; they follow immediately from relativistic equations of motion and are an essential development of conventional notions of space and time. At present all the necessary prerequisites are available, both theoretical and technical, for practical mastering of own fields of particles and physical properties of time.




CONTENTS

Preface

Notation

Chapter 1 Electron as an Open Self-Organizing System

Section 1-1 Physical Ideas and Main Results

Section 1-2 Model of Open System

Section 1-3 Equations for the Vortex and Potential Components of Electromagnetic Field

Section 1-4 Self-Acting Field of Electron

Section 1-5 Interaction of the Field of Electron with Vortex Electromagnetic Field

Section 1-6 Action of the System of Interacting Fields. Relativistic Equation for the Field of Electron

Section 1-7 Vortex Component of the Energy-Momentum Tensor of Electromagnetic Field

Section 1-8 Second Quantization of the Vortex Electromagnetic Field

Section 1-9 Energy-Momentum Tensor of Electrically Charged Fields

Section 1-10 Solution of the Dynamical Equation for the Charged Self-Acting Particles in Nonrelativistic Approximation

Section 1-11 Self-Action Constant

Section 1-12 Wave Function of Electron without Regard for the Vortex Current

Section 1-13 Wave Function of Electron with Allowance for the Vortex Current

Section 1-14 Hydrogen Atom. Relativistic Theory

Section 1-15 Nonrelativistic Limit of the Dynamical Equation. Positronic states

Section 1-16 Nonstationary States of Electron in External Field. The Ehrenfest Theorem

Section 1-17 Quantum Model of the Field of Electrically Charged Matter

Section 1-18 Set of Several Self-Acting Particles

Section 1-19 Stationary Perturbation Theory

Section 1-20 Temporal Perturbation Theory

Section 1-21 Second Quantization of the Field of Electrically

Charged Particles

Chapter 2 The Own Field of Electron and Superluminal Signals

Section 2-1 Two Mechanisms of Transfer of Electromagnetic Interaction - Corpuscular and Classical

Section 2-2 Vortex and Potential Components of the Own Field of Electrically Charged Particles

Section 2-3 4-Potentials and Green's Functions

Section 2-4 Calculation of Potentials and Field Strengths for the Field Created by a Point Electric Charge

Section 2-5 Oscillations of an Electrically Charged Particle

Section 2-6 Vortex Own Field Created by a Stream of Electrons

Section 2-7 Physical Mechanism of the Origin of Superluminal Signals

Section 2-8 Superluminal Signals and STR

Section 2-9 Phenomenon of Relativity of Physical Processes and Prediction of Future

Section 2-10 Local Dynamical Inhomogeneity of Time and STR

Section 2-11 Physical Effects Caused by Superluminal Signals

Conclusion Philosophical Aspects of the Theory

Appendix 1 Spherical Functions

Appendix 2 Spherical Spinors

Bibliography

Index


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