[7] **viXra:1311.0171 [pdf]**
*replaced on 2014-03-22 08:25:49*

**Authors:** Bodo Lampe

**Comments:** 27 pages, 3 figures

A model is presented where the Higgs mechanism of the Standard Model is deduced from the alignment of a strongly correlated fermion system in an internal space with $A_4$ symmetry. The ground state is constructed and its energy calculated. Finally, it is claimed that the model may be derived from a field theory in 6+1 dimensions.

**Category:** High Energy Particle Physics

[6] **viXra:1311.0113 [pdf]**
*submitted on 2013-11-16 08:11:18*

**Authors:** Peter Hickman

**Comments:** Pages.

Further to the paper A Unified Field Theory [1], certain details have been reviewed and modified in this paper. Dark energy is now considered to be the inflaton field after inflation. As a consequence the cosmological density ratios are re-calculated to be: Dark energy 0.68, Dark Matter 0.27, Matter 0.05. A transition within the Higgs vacuum followed by inflation forms the Big Bang state, ie the spontaneous creation of the universe.

**Category:** High Energy Particle Physics

[5] **viXra:1311.0092 [pdf]**
*replaced on 2013-11-12 22:28:06*

**Authors:** Patrick S. Walters

**Comments:** 4 Pages.

Trends in studies of the σ meson are briefly discussed, particularly those involving the radiative decay channel φ → π+π−γ. The properties of this decay channel are compared with those of the decay ω → π+π−γ. Arguments are presented highlighting the prospect of finding a σ signature in ω decay. From these points, an experiment is proposed in which the existence of the σ resonance may be confirmed.

**Category:** High Energy Particle Physics

[4] **viXra:1311.0088 [pdf]**
*submitted on 2013-11-11 15:56:00*

**Authors:** Frank Dodd Tony Smith Jr

**Comments:** 9 Pages.

Schwinger's Source Theory combined with the Complex Domain geometry of Hua and the approach of Wyler allow calculation of realistic physics masses and force strengths.

**Category:** High Energy Particle Physics

[3] **viXra:1311.0084 [pdf]**
*replaced on 2013-11-12 09:48:36*

**Authors:** Patrick S. Walters

**Comments:** 24 Pages.

A brief discussion on the problems of light scalar meson spectroscopy is given. A mass mixing regime for pure scalar tetraquarks, pure scalar mesons, and a pure scalar glueball is presented, resulting in the realization of the experimentally observed masses in the scalar I = 0, I = 1, and I = 1/2 channels. The matrix elements are calculated according to SU(3) flavor symmetry, OZI rules for process diagrams, and best fit to experimental data. The glueball-meson mixing elements are taken to be imaginary in order to account for the reduction in mass of the mixed glueball. The mixing matrix elements are used to compute the unitary flavor amplitude matrices, which are presented and further used to calculate theoretical partial widths for the decays S → PiPj. New theoretical mass and error for f0 (600), as well as an approximate two-pseudoscalar total width, are given in summary, along with the predicted branching ratio Γ(fgg → ηη)/Γ(fgg → ππ) for the pure glueball state which may be present in E760 neutral data. The new states f0 (1200 – 1600), f0 (1790), and X(1810) are mentioned as well, and explained briefly according to the new mixing scheme.

**Category:** High Energy Particle Physics

[2] **viXra:1311.0053 [pdf]**
*submitted on 2013-11-08 03:27:45*

**Authors:** Bernard Riley

**Comments:** 15 Pages.

The Planck Model is summarised and some new observations are made. The fundamental particles are shown in systematic arrangement on mass levels. Hadrons are arranged on sublevels. Length and mass scales of atomic and particle physics are shown to derive from Planck scale. 100 years after the publication of Niels Bohr’s atomic model, the Bohr Radius has been found to be a constant of the Planck Model with implications for dark energy.

**Category:** High Energy Particle Physics

[1] **viXra:1311.0005 [pdf]**
*replaced on 2015-02-20 01:44:25*

**Authors:** Sergey V. Mironov, Victor L. Mironov

**Comments:** 14 Pages. This is revised version of our previous paper

In the present paper we develop the description of massive fields on the basis of space-time algebra of sixteen-component sedeons. The generalized sedeonic second-order equation for the potential of massive field is proposed. It is shown that this equation can be reformulated in the form of a system of Maxwell-like equations for the field strengths. We also discuss the generalized sedeonic first-order equation for massive field.

**Category:** High Energy Particle Physics