By an etherono-quantonic
theory of the author [1], which deduces that the magnetic field of a
magnetic moment is generated by an etherono-quantonic vortex GM = GA+ GB of etherons and of
quantons with mass mh = h·1/c2, giving the magnetic induction B, is proposed a revised model of
pseudoscalar photon derived from the Munera’s model and the Hunter-Wadlinger model, formed by
two vectorial photons with diameter l/p, deformed to the speed’ direction to the value: l/2 proportional
with the speed. The revised model of photon is compatible with both the undulatory and the
corpuscular properties of the particles and allows a phenomenological microphysical explanation for
the Kerr and Cotton-Mouton effects and for other similar effects. It is explained also microphysically
the magnetic rotating of polarization (the Faraday effect). The model indicates the variation of the
quantum vacuum refraction index in the presence of a strong electric E-field or magnetic B-field.
Author (s) Details
Arghirescu Marius
Department of Patents and Technological information, State Office for Inventions and Trademarks, OSIM, Bucharest, Romania.
View Book :- http://bp.bookpi.org/index.php/bpi/catalog/book/218
magnetic moment is generated by an etherono-quantonic vortex GM = GA+ GB of etherons and of
quantons with mass mh = h·1/c2, giving the magnetic induction B, is proposed a revised model of
pseudoscalar photon derived from the Munera’s model and the Hunter-Wadlinger model, formed by
two vectorial photons with diameter l/p, deformed to the speed’ direction to the value: l/2 proportional
with the speed. The revised model of photon is compatible with both the undulatory and the
corpuscular properties of the particles and allows a phenomenological microphysical explanation for
the Kerr and Cotton-Mouton effects and for other similar effects. It is explained also microphysically
the magnetic rotating of polarization (the Faraday effect). The model indicates the variation of the
quantum vacuum refraction index in the presence of a strong electric E-field or magnetic B-field.
Author (s) Details
Arghirescu Marius
Department of Patents and Technological information, State Office for Inventions and Trademarks, OSIM, Bucharest, Romania.
View Book :- http://bp.bookpi.org/index.php/bpi/catalog/book/218
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