Open Access Library Journal How to cite this paper: Marius, A. (2015) A Revised Model of Photon Resulted by an Etherono-Quantonic Theory of Fields. Open Access Library Journal, 2: e1920. http://dx.doi.org/10.4236/oalib.1101920 A Revised Model of Photon Resulted by an Etherono-Quantonic Theory of Fields Arghirescu Marius State Office for Inventions and Trademarks, OSIM, Bucharest, Romania Email: arghirescu.marius@osim.ro Received 2 October 2015; accepted 18 October 2015; published 23 October 2015 Copyright © 2015 by author and OALib. This work is licensed under the Creative Commons Attribution International License (CC BY). http://creativecommons.org/licenses/by/4.0/ Abstract 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 ΓM = ΓA + ΓB of etherons and of quantons with mass mh = h/c 2 , giving the magnetic induction B, a revised model of pseudoscalar photon derived from the Munera’s model and the Hunter-Wadlinger model is proposed, formed by two vectorial photons with diameter λ/π, deformed to the speed direction to the value: λ/2 proportional with the speed. The revised model of photon is compatible with the ondulatory and the corpuscular properties of the particles and allows a phenomenological microphysical explana- tion for the Kerr and the Cotton-Mouton effects and other similar effects. It is explained also microphysically the magnetic rotating 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. Keywords Pseudo-Scalar Photon, Etherono-Quantonic Vortex, Magnetic Field, Kerr Effect, Cotton-Mouton Effect, Munera Model Subject Areas: Theoretical Physics 1. Introduction The dualism: wave-corpuscle of the light determined the proposal of some pseudo-scalar photon models (for a photon spin: S = h/2π) of solitonic type. To explain the wave-particle dualism of the pseudo-scalar photon, H. A. Mùnera considers the photon as a semi-classic vortexial doublet of particle-antiparticle pair, which explains the frequency and the repose mass of a photon, [1], considering preonic vortexes of quasi-constant density, formed in the quantum vacuum. A photon model was proposed also by Lenhert, [2] which deduced a photon diameter: d = λ 0 /π and which indicated a