The photomagneton and quantum field theory / A.A. Hasanein, M.W. Evans.

Format:

Book

Author/Creator:

Hasanein, A. A. (Ahmed A.)

Contributor:

Evans, Myron W. (Myron Wyn), 1950-

Series:

Hasanein, A. A. (Ahmed A.). Quantum chemistry ; v. 1.

World Scientific series in contemporary chemical physics ; v. 4

Quantum chemistry ; vol. 1

World Scientific series in contemporary chemical physics ; v. 4.

Language:

English

Subjects (All):

Electromagnetism.

Photons.

Physical Description:

358 p.

Place of Publication:

Singapore ; River Edge, NJ : World Scientific, c1994.

Language Note:

English

Summary:

This first volume of this two-volume set deals with the important recent discovery of the photomagneton of electromagnetic radiation, a discovery which is fundamental in quantum field theory and in quantum mechanics in matter. The photomagneton is the elementary quantum of magnetic flux density carried by the individual photon in free space, and is generated directly by the intrinsic angular momentum of the free photon. The volume develops the theory of the photomagneton in a series of papers, which cover all the major aspects of the theory, from classical electrodynamics to the relativistic quantum field. Several suggestions are given for experimental tests, and the available experimental evidence is discussed in detail. The overall conclusion of the series of papers is that the photomagneton, which is observable experimentally in magneto-optical phenomena, indicates the presence in free space of a novel, longitudinal, magnetic flux density, linked ineluctably to the usual transverse components. If the photomagneton is not observed, then a paradox would have emerged at the most fundamental electrodynamical level, necessitating a modification of the Maxwell equations themselves.

Contents:

ch. 1. The photon has three polarizations

ch. 2. The photomagneton [symbol] and longitudinal ghost field B[symbol] of electromagnetism

ch. 3. The relation between transverse and longitudinal solutions of Maxwell's equations

ch. 4. The one electron inverse Faraday effect: the role of the equivalent magnetic field B[symbol]

ch. 5. Longitudinal solutions of Maxwell's equations in the Lorentz gauge in free space

ch. 6. Irreducible tensorial representations in R(3) of the longitudinal ghost fields of free space electromagnetism

ch. 7. Theory of the optical Faraday effect

ch. 8. Classical relativistic theory of the longitudinal ghost fields of electromagnetism

ch. 9. The magnetic fields and rotation generators of free space electromagnetism

ch. 10. Some consequences of finite photon mass in electromagnetic theory

ch. 11. Questions about the field B[symbol]

ch. 12. Molecular theory of optical NMR spectroscopy: light induced bulk and site specific shifts

ch. 13. Optical NMR as a shielding phenomenon

ch. 14. Manifestly covariant theory of the electromagnetic field: longitudinal magnetic fields in nonconducting and conducting media, reflection and refraction

ch. 15. Criticisms of the diagrammatic approach to complete experiment symmetry

ch. 16. The photon's magnetostatic flux quantum: its role in circular dichroism and the electrical Kerr effect

ch. 17. The Maxwellian limit of the Einstein-DeBroglie theory of electromagnetic radiation.

Notes:

Bibliographic Level Mode of Issuance: Monograph

Includes bibliographical references.

ISBN:

9789814440820

9814440825

9781299133044

1299133045