Journal of Modern Physics

Volume 6, Issue 8 (July 2015)

ISSN Print: 2153-1196   ISSN Online: 2153-120X

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Global Solar Variations and Effects of Relativistic 2D-Hydrogen

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DOI: 10.4236/jmp.2015.68114    3,182 Downloads   3,910 Views  Citations

ABSTRACT

Characteristics of the temporal evolution of the global solar magnetic field were found to display a 2-step cycling mode consistent with a pattern of a fundamental harmonic progression underlying all solar cycles at all times and having its seat in the fusion region of the core via nuclear magnetic resonance as part of the hydrogen and helium fusion chain. In addition to the three principal zones in the interior of the sun, core, radiative zone, and convection zone, a sub-surface layer is being suggested to take part in the processes of varying solar activity, which would be an extension of relativistic 2D hydrogen being formed throughout the plasma body under the influence of pressure waves originating in the core. The major participants confined to such a 2D layer is for the most part 2D hydrogen particularly in its form of relativistic 2D hydrogen, where the Bohratom binding energies are replaced by binding energies in the range of Eo = 0.5 MeV. For this reason it is conjectured that this condition lends itself to providing contributions to (a) the energy release including 0.5 MeV and lower energy γ-photons as well as (b) superimposing a radial component to the global dipole field.

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Dreschhoff, G. , Jungner, H. , Wong, K. and Perry, C. (2015) Global Solar Variations and Effects of Relativistic 2D-Hydrogen. Journal of Modern Physics, 6, 1095-1103. doi: 10.4236/jmp.2015.68114.

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