Quantum Electrodynamics through the Eyes of a Biophysicist

Andrey Nikolaevich Volobuev
Samara State Medical University, Head of the Chair Physics, Russia

Series: Physics Research and Technology
BISAC: SCI057000

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$195.00

Volume 10

Issue 1

Volume 2

Volume 3

Special issue: Resilience in breaking the cycle of children’s environmental health disparities
Edited by I Leslie Rubin, Robert J Geller, Abby Mutic, Benjamin A Gitterman, Nathan Mutic, Wayne Garfinkel, Claire D Coles, Kurt Martinuzzi, and Joav Merrick

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In this book, an attempt to augment the physical representations about some phenomena of the quantum electrodynamics in relation to medical physics is made. First of all, the physical theory of an electromagnetic radiation quantum is developed. The Schrodinger’s equation for a quantum is found and solved. The quantum length, how it is radiated, what the role of a vacuum in these processes, etc. are shown. The explanation of the quark confinement reason (impossibility to leave a hadron by a quark) is given.

With the help of the Feynman’s diagram method, some physical processes playing an important role in medical physics are analysed in detail: annihilation of the electrons and positrons in photons, breaking of the electrons in an electric field of a nucleus, changing of the quantum polarization direction at the interaction site with molecules, etc. The use of Feynman’s diagram method makes the loss of some physical phenomena accompanying a researched physical process possible, in particular the Doppler effect.

On the basis of the quantum electrodynamics, the modern methods of diagnostics are investigated: a positron-emission tomography and a magneto-resonant tomography. Their developmental processes are also discussed. This book will be useful to students and scientists whose interests lay in the fields of quantum electrodynamics and medical physics. (Imprint: Nova)

Preface

Introduction

Chapter 1. Photon

Chapter 2. Elementary Particles: Reason of the Quarks Confinement in the Yang-Mills Field

Chapter 3. Polarizing and a Quantum Effects in Malus Law

Chapter 4. Annihilation: The Positron-Emission Tomography

Chapter 5. Braking Radiation

Chapter 6. Optical Activity

Chapter 7. Interaction of the Electromagnetic Field and a Spin: The Magneto-Resonant Tomography

Conclusion

References

Author's Contact Information

Index

The book can be useful to students, scientists and the engineers working in areas, connected with optics, quantum electrodynamics, biophysics

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