High Energy Particle Physics

1209 Submissions

[4] viXra:1209.0109 [pdf] replaced on 2014-08-16 13:57:26

Tetrahedra, Dark Energy, and Cold Fusion

Authors: Frank Dodd Tony Smith Jr
Comments: 210 Pages.

Tetrahedra as basic cells of the 600-cell describe geometry related to my E8 physics model of vixra 1108.0027. Arrays of tetrahedral Josephson Junctions may allow observation of and interaction with Dark Energy. Jitterbug transformations of Tetrahedral/Octahedral Palladium atom clusters containing Deuterium may produce Cold Fusion as described in vixra 1209.0007. An optimal size for such clusters may be 147 Pd atoms with diameter about 1.56 nm, similar in size to 1.5 nm clusters recently synthesized at Sandia and UNM. V2 makes clear that the Large N Limit of 4N Tetrahedra Clusters for packing 3-dim space with Tetrahedra corresponds to a generalized Hyperfinite II1 von Neumann factor AQFT. V2 adds superposition characteristics of diamond network.
Category: High Energy Particle Physics

[3] viXra:1209.0026 [pdf] submitted on 2012-09-08 13:16:09

Strong Interaction and Electromagnetism

Authors: P. R. Silva
Comments: 08 Pages. First published: Rev. Bras. Ensino Fis.v38, n3306 (in portuguese)

The basic structure of the classical electromagnetism is used as a means to study the strong interaction. The strong coupling constant and the strong field (expessed in terms of an equivalent electric field) inside the nucleon (proton or neutron) are estimated. It is also evaluated the vacuum pressure on the boundary of the nucleon. Quark confinement is briefly discussed. Simplified versions of the MIT bag model are also considered in making the present treatment
Category: High Energy Particle Physics

[2] viXra:1209.0009 [pdf] submitted on 2012-09-02 17:35:32

Gordon Decomposition and Chiral Properties of Yang Mills Magnetic Monopole Baryons

Authors: Jay R. Yablon
Comments: 12 Pages.

In a separate paper [1] (http://vixra.org/abs/1208.0042), the author advanced the thesis that baryons are Yang-Mills magnetic monopoles. Here, we apply the Gordon decomposition to the final results from [1] to understand what is “inside” a Yang-Mills magnetic monopole baryon. We develop a local chiral duality formalism inherent in the Dirac algebra which appears to have lain undiscovered for decades. We also discover a “vector/axial inversion” that is inherent in hadron physics rooted in Dirac’s γ5=iγ0 γ1 γ2 γ3 which may explain the observed chiral asymmetries in hadrons including the many vector and axial mesons clearly observed in phenomenological data. Finally, to define what is “inside” a baryon in experimental terms, in (5.1) we specify the form from which predicted cross sections of magnetic monopole baryons can be computed and then used to experimentally confirm the thesis that baryons are Yang-Mills magnetic monopoles.
Category: High Energy Particle Physics

[1] viXra:1209.0001 [pdf] replaced on 2015-11-30 15:39:16

On Whether or not Non-Gravitational Interaction Can Occur in the Absence of Gravity

Authors: Shawn Halayka
Comments: 5 Pages.

The Standard Model of particle physics is built upon the implied assumption that non-gravitational interaction can occur in the absence of gravity. This essay takes this implied assumption at face value and then considers the alternative assumption -- non-gravitational interaction {\it can't} occur in the absence of gravity. The alternative assumption is then discussed in terms of the dark sector of the Universe.
Category: High Energy Particle Physics