[4] **viXra:1108.0048 [pdf]**
*submitted on 29 Aug 2011*

**Authors:** Dan Visser

**Comments:** 4 pages. Publication is free for any institute or magazine

The Higgs mass is approximately 0.5 TeV/c2 . This is a new predicted value. This
mass value for Higgs is calculated with a new dark energy force formula, which is performing in
the hypothesis of the Double Torus, a new cosmological "model" for the universe. This "model"
embeds the Big Bang framework. The new Higgs mass is theoretically disclosed by implementing the
dimensional features of relativistic spacetime into the dimensions of the dark energy force formula and an
equalization to the lowest limit for acceleration in Newton force, being a transition where Newton breaks down
and the dark energy force takes over. The dark energy force generates gravitational movement and thus mass. This
enables to calculate a Higgs mass differently than in currently used theories.

**Category:** Mathematical Physics

[3] **viXra:1108.0047 [pdf]**
*submitted on 27 Aug 2011*

**Authors:** Giuliano Bettini

**Comments:** 21 pages.

I present examples of applications of 3-dimensional analytic functions to electrostatics and potential
flows, mainly devoted to engineers and physicists.
Of course, the paper only suggests areas of future development, despite that a persistent idea, from
Sommerfeld on, seems to be “The powerful tool of the theory of complex functions cannot be used
in three-dimensional potential theory” (Sommerfeld, “Mechanics of Deformable Bodies”,
Academic Press, 1950)
I summarize here unpublished manuscripts dated 1994.

**Category:** Mathematical Physics

[2] **viXra:1108.0042 [pdf]**
*submitted on 26 Aug 2011*

**Authors:** Valeriy V. Dvoeglazov

**Comments:** 19 Pages

We introduce the Majorana spinors in the momentum representation.
They obey the Dirac-like equation with eight components, which has been
first introduced by Markov. Thus, the Fock space for corresponding quantum
fields is doubled (as shown by Ziino). Particular attention has been
paid to the questions of chirality and helicity (two concepts which frequently
are confused in the literature) for Dirac and Majorana states.

**Category:** Mathematical Physics

[1] **viXra:1108.0005 [pdf]**
*replaced on 2012-04-20 10:27:21*

**Authors:** DT Froedge

**Comments:** 13 Pages. Clarifying some points of previous version

In a previous paper we have discussed the conjecture of a variable particle rest mass as a function of gravitational potential [1]. This paper discuses the implications, in regard to a large neutron star, and contrast the difference between the predicted phenomena, and Black Hole theory as put fourth by standard GR. As most know, Einstein was not convinced of the existence of Black Holes, but modern solutions of the GR field equations appear to agree with the experimental evidence. There are some problems however, as are well known, the explanations for the diffuse, and the persistent source gamma ray emissions from the galactic center, do not have an adequate explanation, and the energy engines driving Quasars and AGNs are not sufficiently explained. This paper will explore the differences between VRM neutron stars, and Black Holes, for the purpose of identifying detectable, and measurable phenomena. The validity of this theory will be established on the finding of massive neutron stars or massive pulsars. >3 suns.

**Category:** Mathematical Physics