| viXra.org > High Energy Particle Physics > 2005 |
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| viXra.org > High Energy Particle Physics > 2005 |
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[9] viXra:2005.0279 [pdf] replaced on 2020-07-14 00:14:06
Authors: Rui-Cheng LI
Comments: 23 Pages.
We introduce a new class of higgs type complex-valued scalar fields $U$ with Feynman propagator $ 1/p^4$ and consider the matching to the traditional fields with propagator $1/p^2$ in the viewpoint of effective potentials at tree level. With some particular postulations on the convergence and the causality, there are a wealth of potential forms generated by the fields $U$, such as the linear, logarithmic, and Coulomb potentials, which might serve as sources of effects such as the confinement, dark energy, dark matter, electromagnetism and gravitation. Moreover, in some limit cases, we get some deductions, such as: a nonlinear Klein-Gordon equation, a linear QED, a mass spectrum with generation structure and a seesaw mechanism on gauge symmetry and flavor symmetry; and, the propagator $1/p^4$ would provide a possible way to construct a renormalizable gravitation theory and to solve the non-perturbative problems.
Category: High Energy Particle Physics
[8] viXra:2005.0261 [pdf] submitted on 2020-05-27 18:11:29
Authors: Thomas J. Buckholtz
Comments: 94 pages
We develop and apply new physics theory. The theory suggests specific unfound elementary particles. The theory suggests specific constituents of dark matter. We apply those results. We explain ratios of dark matter amounts to ordinary matter amounts. We suggest details about galaxy formation. We suggest details about inflation. We suggest aspects regarding changes in the rate of expansion of the universe. The theory points to relationships between masses of elementary particles. We show a relationship between the strength of electromagnetism and the strength of gravity. The mathematics basis for matching known and suggesting new elementary particles extends mathematics for harmonic oscillators.
Category: High Energy Particle Physics
[7] viXra:2005.0255 [pdf] replaced on 2021-02-16 18:56:09
Authors: S.A. Larin
Comments: 9 Pages. Some clarifying remarks are added
We prove that it is necessary to introduce the non-zero gluon masses into the fundamental Lagrangian of Quantum Chromodynamics in order to describe the mass-gap in the reaction of electron-positron annihilation into hadrons. A mew restriction on the gluon masses is obtained. The renormalized theory with non-zero Lagrangian gluon masses is constructed.
Category: High Energy Particle Physics
[6] viXra:2005.0249 [pdf] submitted on 2020-05-26 12:25:43
Authors: Ervin Goldfain
Comments: 7 Pages.
We have shown over recent years that the dynamics of quantum fields is likely to slide outside equilibrium above the Fermi scale of electroweak interactions. In proximity to this scale, spacetime dimensionality flows with the probing energy and leads to the concept of minimal fractal manifold (MFM). The goal of this brief report is to combine the MFM conjecture with the transition to chaos in nearly-integrable Hamiltonian systems. In doing so, we find that the KAM theorem can conceivably explain the stability of the Fermi scale in the low TeV sector.
Category: High Energy Particle Physics
[5] viXra:2005.0235 [pdf] replaced on 2020-07-25 06:35:27
Authors: Hamid Reza Karimi
Comments: 16 Pages.
In this paper by applying the Quantized space and time theory, the speed limit of protons has been determined and consequently the Lorentz factor has been calculated with a high degree of accuracy. Eventually the mass equivalent to energy of Higgs boson which is created by collision of two proton beams (This experiment has been performed in LHC) has been calculated precisely to .
Category: High Energy Particle Physics
[4] viXra:2005.0168 [pdf] replaced on 2020-05-22 05:41:28
Authors: Michael Tzoumpas
Comments: 7 Pages.
After the nuclei of oxygen O-16 and calcium Ca, which are the first and the second upper-order ones, the tin nucleus Sn is the third upper-order nucleus. Its structure is based on the successive conversions of iron Fe and nickel Ni-60 into tin nucleus Sn. From this third upper-order nucleus the fourth one is constructed (orion nucleus Or-307), as a forecast by the unified theory of dynamic space. The atomic numbers Z of the above four upper-order nuclei are the so-called four "magic numbers", i.e. Z1=8, Z2=8x2.5=20, Z3=20x2.5=50 and Z4=50x2.5=125, according to the mirror symmetry (Figs 4 and 5). It is noted that, this forecast of orion nucleus Or-307 with an atomic number Z4=125 is the corresponding "hypothetical unbihexium Ubh", whose the different atomic number is Z=126. However, the number Z4=125 looks symmetrical and not magical at all, due to the 2.5 factor.
Category: High Energy Particle Physics
[3] viXra:2005.0095 [pdf] replaced on 2020-05-13 10:07:28
Authors: Ervin Goldfain
Comments: 9 Pages.
Last decade has seen mounting evidence that complex dynamics can shed new light on many open questions of contemporary theoretical physics. Starting from this vantage point, our goal here is to show that Lie groups and the gauge structure of the Standard Model follow from the universal framework of self-organized criticality (SOC). In particular, we find that Lie groups and their algebra arise from the flow of spacetime dimensions with the energy scale.
Category: High Energy Particle Physics
[2] viXra:2005.0094 [pdf] submitted on 2020-05-07 11:59:07
Authors: R. Wayte
Comments: 52 Pages.
Detailed models of mesons have been derived in terms of structured particles which can replace the basic quark/anti-quark singularities of standard QCD theory. Pion design is related to the muonic mass, with a Yukawa-type potential for the hadronic field. A charged pion is produced by adding a heavy-electron or positron in a tight orbit around the neutral core. Other mesons are found to be ordered assemblies of pion-size masses, travelling in bound epicyclical orbits, with real intrinsic spin and angular momentum. These orbit dimensions are related to the mean lifetimes of the mesons through action integrals. Decay products resemble components of their parent mesons as expected for a relaxation process with particle traceability.
Category: High Energy Particle Physics
[1] viXra:2005.0014 [pdf] submitted on 2020-05-01 02:41:04
Authors: Rafael Cañete Mesa
Comments: 16 Pages. 3 figures; Including Spanish version
The expectation value of the total energy of a wave packet, associated with the speed (moments) space by means of the Lorentz transformation, allows us to obtain by means of quantum wave formulation an energetic expression equivalent, and at the same time less restricted (more versatile and informative), to the one obtained by means of a corpuscular treatment. On the one hand, the energetic formants of the matter appear, on the other the expression in undulatory terms of it, of that which we call mass, and finally an additional phase factor as the last vestige of the undulatory nature after the formation process, that is to say, as an accrediting element of that nature, and mechanism of restitution of it, responsible for the wave-corpuscle duality, of the related creation-annihilation processes, and of the relations among the different generations of elementary particles, as it was shown in https://vixra.org/abs/2003.0001.
Category: High Energy Particle Physics
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