[13] **viXra:1003.0214 [pdf]**
*submitted on 18 Mar 2010*

**Authors:** N. Mebarki, M. Boussahel

**Comments:** 38 pages

A classical gauge model based on the Lie group SU(3)_{L} X U(1)_{N}
with exotic quarks is reformulated within the formalism of non-associative
geometry associated to an L-cycle. The N charges of the fermionic
particles and the related parameters constraints are uniquely
determinedalgebraic consequences. Moreover, the number of scalar particles are dictated
by the non-associativity of the geometry. As a byproduct of this
formalism, the scalar, charged and neutral gauge bosons masses as well as the
mixing angles are derived. Furthermore, various expressions of the
vector and axial couplings of the quarks and leptons with the neutral gauge
bosons and lower bounds of the very heavy gauge bosons are also obtained.

**Category:** High Energy Particle Physics

[12] **viXra:1003.0202 [pdf]**
*submitted on 17 Mar 2010*

**Authors:** James R. Bogan

**Comments:** 7 pages

We suggest discovery targets for the Higgs boson and a Tev mass scale for quantum gravity,
in terms of the cosmological constant, and ultimately, the electron.

**Category:** High Energy Particle Physics

[11] **viXra:1003.0190 [pdf]**
*submitted on 16 Mar 2010*

**Authors:** Ervin Goldfain

**Comments:** 1 page, Published in "Progress in Physics" vol. 3 (2008).

The possibility of a hidden sector of particle physics that lies beyond the energy range of
the Standard Model has been recently advocated by many authors. A bizarre implication
of this conjecture is the emergence of a continuous spectrum of massless fields with
non-integral scaling dimensions called "un-particles". The purpose of this Letter is to
show that the idea of "un-particles" was considered in at least two previous independent
publications, prior to its first claimed disclosure.

**Category:** High Energy Particle Physics

[10] **viXra:1003.0169 [pdf]**
*submitted on 14 Mar 2010*

**Authors:** A.G. Kyriakos

**Comments:** 12 Pages.

Two possibilities of the quantum theory construction, indicated by Feynman, are examined.
The special features of the structure of the Standard Model (SM) are enumerated, which attest to
the fact that SM is not an axiomatic, but an algorithmic theory. Deficiencies of SM and
possibilities of overcoming these deficiencies are indicated. The structure of the nonlinear
quantum field theory (NQFT) as an axiomatic theory, which makes it possible to overcome
deficiencies in the Standard Model, is presented.

**Category:** High Energy Particle Physics

[9] **viXra:1003.0145 [pdf]**
*replaced on 16 Oct 2010*

**Authors:** Ervin Goldfain

**Comments:** 16 pages, Paper published in Electronic Journal of Theoretical Physics. EJTP 7, No. 24 (2010) 219–234

Understanding the origin of certain symmetry breaking scenarios in high-energy physics remains an open
challenge. Here we argue that, at least in some cases, symmetry violation is an effect of non-equilibrium
dynamics that is likely to develop somewhere above the energy scale of electroweak interaction. We also
find that, imposing Poincare symmetry in non-equilibrium field theory, leads to fractalization of space-time
continuum via period-doubling transition to chaos.

**Category:** High Energy Particle Physics

[8] **viXra:1003.0140 [pdf]**
*submitted on 12 Mar 2010*

**Authors:** N. Mebarki, F. Khelili, O. Benabbes

**Comments:** 20 pages, Published in EJTP No22 (2009)5-28

A unified description of a symmetrized and anti-symmetrized Moyal star product of the
non-commutative infinitesimal gauge transformations is presented and the corresponding Seiberg-Witten
maps are derived. Moreover, the noncommutative covariant derivative, field strenght tensor as well
as gauge transformations are shown to be consistently constructed not on the enveloping but on the
Lie and/or Poisson algebra. As an application, a pure geometric extension of the standard model is
shown explicitly.

**Category:** High Energy Particle Physics

[7] **viXra:1003.0127 [pdf]**
*submitted on 11 Mar 2010*

**Authors:** Ervin Goldfain

**Comments:** 9 pages, This paper is a condensed version of an article published in a nonlinear dynamics journal in 2009

Both theory and experiment strongly suggest that new phenomena await discovery above the
energy range of the standard model for particle physics (SM). We argue that a correct description of
physics in the Terascale sector needs to account for the unquenched randomness induced by short-distance
fluctuations. The existence of unparticles, alleged to emerge at the next-generation colliders, is motivated
by a dynamic setting that is far-of-equilibrium and able to sustain a rich spectrum of complex phenomena.

**Category:** High Energy Particle Physics

[6] **viXra:1003.0081 [pdf]**
*submitted on 8 Mar 2010*

**Authors:** Ervin Goldfain

**Comments:** 13 pages, This paper was published in IJNSNS 6(3), pp. 223-234, 2005

The standard model embodies our current knowledge of elementary particle physics
and represents a well-tested framework for the study of non-gravitational phenomena
at low energies. It is built on the foundations of relativistic quantum field
theory (QFT), which provides the correct description of electroweak and strong
interactions involving leptons and quarks. It is generally believed that, extending
the validity of QFT to energies on or beyond the TeV range must include the
unavoidable signature of vacuum fluctuations and strong-field gravity. We argue
that an effective approach to the high-energy regime of QFT demands the tools of
complex dynamics and fractal operators. The unexpected consequences of using fractal
operators to model complexity beyond the current range of QFT are outlined and discussed.

**Category:** High Energy Particle Physics

[5] **viXra:1003.0055 [pdf]**
*submitted on 6 Mar 2010*

**Authors:** V. Christianto, Florentin Smarandache

**Comments:** 3 pages

As we know, it has been quite common nowadays for particle physicists to think of
six impossible things before breakfast, just like what their cosmology fellows used to
do. In the present paper, we discuss a number of those impossible things, including
PT-symmetric periodic potential, its link with condensed matter nuclear science, and
possible neat link with Quark confinement theory. In recent years, the PT-symmetry
and its related periodic potential have gained considerable interests among physicists.
We begin with a review of some results from a preceding paper discussing derivation of
PT-symmetric periodic potential from biquaternion Klein-Gordon equation and proceed
further with the remaining issues. Further observation is of course recommended in
order to refute or verify this proposition.

**Category:** High Energy Particle Physics

[4] **viXra:1003.0048 [pdf]**
*submitted on 6 Mar 2010*

**Authors:** V. Christianto, Florentin Smarandache

**Comments:** 3 pages

Unlike what some physicists and graduate students used to think, that physics science
has come to the point that the only improvement needed is merely like adding more
numbers in decimal place for the masses of elementary particles or gravitational constant,
there is a number of unsolved problems in this field that may require that the
whole theory shall be reassessed. In the present article we discuss thirty of those unsolved
problems and their likely implications. In the first section we will discuss some
well-known problems in cosmology and particle physics, and then other unsolved problems
will be discussed in next section.

**Category:** High Energy Particle Physics

[3] **viXra:1003.0038 [pdf]**
*submitted on 6 Mar 2010*

**Authors:** Florentin Smarandache

**Comments:** 4 pages

As shown, experiments registered unmatter: a new kind of matter whose atoms include
both nucleons and anti-nucleons, while their life span was very short, no more than
10^{-20}sec. Stable states of unmatter can be built on quarks and anti-quarks: applying
the unmatter principle here it is obtained a quantum chromodynamics formula that
gives many combinations of unmatter built on quarks and anti-quarks.

**Category:** High Energy Particle Physics

[2] **viXra:1003.0012 [pdf]**
*submitted on 6 Mar 2010*

**Authors:** Florentin Smarandache, V. Christianto

**Comments:** 3 pages

We shortly review a series of novel ideas on the physics of hadrons and nuclear matter.
Despite being vastly different in scope and content, these models share a common
attribute, in that they offer unconventional viewpoints on infrared QCD and nuclear phenomena.
In a sense, they are reminiscent of the plethora of formulations that have been
developed over the years on classical gravitation: many seemingly disparate approaches
can be effectively used to describe and explore the same physics.

**Category:** High Energy Particle Physics

[1] **viXra:1003.0011 [pdf]**
*replaced on 6 Mar 2010*

**Authors:** Florentin Smarandache, V. Christianto

**Comments:** 4 pages

As a continuation of the preceding section, we shortly review a series of novel ideas
on the physics of hadrons. In the present paper, emphasis is given on some different
approaches to the hadron physics, which may be called as 'programs' in the sense of
Lakatos. For clarity, we only discuss geometrization program, symmetries/ unification
program, and phenomenology of inter-quark potential program.

**Category:** High Energy Particle Physics