High Energy Particle Physics

2008 Submissions

[8] viXra:2008.0198 [pdf] submitted on 2020-08-27 08:14:31

Validating a Maximally Natural Electromagnetic Model of the Four Forces

Authors: Peter Cameron, Michaele Suisse
Comments: 5 Pages. Letter of Interest submitted to snowmass2021

We offer a model based upon three `assumptions': The first is geometric, that the vacuum wavefunction is comprised of Euclid's fundamental geometric objects - point, line, plane, and volume elements, the geometric representation of Clifford algebra. The second is electromagnetic, that physical manifestation follows from introducing the dimensionless electromagnetic coupling constant alpha. The third takes the electron Compton wavelength to set the scale of space. The model is arguably maximally natural. Wavefunction interactions are modeled by geometric products of Clifford algebra. What emerges is naturally gauge invariant, finite, confined, asymptotically free, and background independent, and contains the four forces, dark matter, and dark energy. Complementing the Standard Model, it focuses not on Lagrangian flow of energy between kinetic and potential, but rather on what governs amplitude and phase of that flow - quantized impedance networks of geometric wavefunction interactions. Claims presented here are extraordinary}. The model requires validation. While in concordance with the Standard Model, it offers new perspectives. Many connections to SM have been established, however they're but a small fraction of what remains to be done. In particular, it's far from clear how the many broken symmetries in the two models are related.
Category: High Energy Particle Physics

[7] viXra:2008.0189 [pdf] replaced on 2020-09-10 07:51:11

Addendum to "A Bifurcation Model of the Quantum Field"

Authors: Ervin Goldfain
Comments: 4 Pages.

The purpose of this brief Addendum is to elaborate on a couple of relationships introduced in Physica A 165: 399-419 (1990).
Category: High Energy Particle Physics

[6] viXra:2008.0181 [pdf] replaced on 2022-10-06 00:40:20

On the Quantum Nature of a Fireball Created in Ultrarelativistic Nuclear Collisions

Authors: V. A. Kizka
Comments: 8 Pages. DOI: 10.9734/bpi/nfpsr/v1/3541A

In the article, the fireball formed in the collision of relativistic nuclei is considered as a quantum object. Based on this, an attempt is made to explain the difference in the measurements of hyperon yields in the two experiments - NA49 and NA57. Using the basic principles of quantum mechanics, it was shown that a fireball can have two quantum states - with and without ignited Quark-Gluon Plasma (QGP). With an increase of the collision energy of heavy ions, the probability of QGP ignition increases. At the same time, the probability of the formation of fireball without QGP ignition also remains nonzero even at nuclear collision energies that are much higher than the threshold QGP formation energy, which may be erroneously considered to be fixed and which is intensively sought in modern heavy ion accelerators. Thus, at SPS energy of heavy ion collisions sqrt{s_{NN}} = 17.3 GeV, which is much higher than the assumed threshold energy of QGP formation in the region around or slightly above of sqrt{s_{NN}} = 3 GeV, only half of the central collisions of heavy ions bring to the formation of a fireball consisted of deconfined matter (quarks and gluons), the remaining half of the collisions lead to the formation of a fireball from only hadronic matter (mesons, nucleons, hyperons etc.).
Category: High Energy Particle Physics

[5] viXra:2008.0172 [pdf] submitted on 2020-08-23 10:44:26

Negative Energies in the Dirac Equation

Authors: Valeriy V. Dvoeglazov
Comments: 25 Pages. Talk at the XIII Taller DGFM SMF, Leon, Gto, Forum Universitario, Nov. 4-8, 2019 Parallel Talk, 05.11.2019, Nov 2019, Leon, Mexico.

It is easy to check that both algebraic equation Det(ˆp − m) = 0 and Det(ˆp + m) = 0 for u− and v− 4-spinors have solutions with p_0 = ±E_p = ± sqrt {p^2 + m^2}. The same is true for higher-spin equations. Meanwhile, every book considers the equality p_0 = E_p for both u− and v− spinors of the (1/2, 0)+(0, 1/2) representation only, thus applying the Dirac-Feynman-Stueckelberg procedure for elimination of the negative-energy solutions. The recent Ziino works (and, independently, the articles of several others) show that the Fock space can be doubled. We re-consider this possibility on the quantum field level for both s = 1/2 and higher spin particles.
Category: High Energy Particle Physics

[4] viXra:2008.0120 [pdf] replaced on 2020-08-26 04:48:55

Three Generations and Fermion Chirality from Universal Bifurcations

Authors: Ervin Goldfain
Comments: 7 Pages.

The Standard Model (SM) fails to account for either the triplication of fermion families or chiral symmetry breaking in the electroweak sector. Here we show that both phenomena arise from the approach to chaos of quantum theory near the Fermi scale.
Category: High Energy Particle Physics

[3] viXra:2008.0105 [pdf] submitted on 2020-08-15 11:07:58

The Emission of Photons by Plasma Fluctuations

Authors: Miroslav Pardy
Comments: 9 Pages. original article

The totally ionized charged collisionless plasma at nite temperature is considered. Using the statistical and Schwinger field methods we derive the production of photons from the plasma by the Cerenkov mechanism. We derive the spectral formula of emitted photons by the plasma uctuations. The calculation can be extended to the photon propagator involving radiative corrections.
Category: High Energy Particle Physics

[2] viXra:2008.0068 [pdf] submitted on 2020-08-11 10:27:20

Теория геометрического моделирования адронов (The Theory of Geometric Modeling of Hadrons)

Authors: Franz Hermann
Comments: 37 Pages.

Целью данной работы является попытка построить наглядные геометрические модели, связанные с характеристиками некоторых видов элементарных частиц. Модели, по возможности, непротиворечивые и не выходящие за рамки существующей физической теории. В основу построения таких моделей была положена внешняя схожесть формулы Гелл-Манна и Нишиджимы, связывающая характеристики элементарных частиц: электрический заряд Q, проекцию изоспина I и гиперзаряд Y и формула для вычисления площади многоугольника, расположенного на целочисленной решётке. (The purpose of this work is an attempt to construct visual geometric models related to the characteristics of some types of elementary particles. The models, as far as possible, are consistent and do not go beyond the existing physical theory. The basis for the construction of such models was the external similarity of the Gell-Mann and Nishijima formulas, connecting the characteristics of elementary particles: electric charge Q, isospin projection I and hypercharge Y, and a formula for calculating the area of a polygon located on an integer lattice.)
Category: High Energy Particle Physics

[1] viXra:2008.0018 [pdf] submitted on 2020-08-03 19:52:47

The Geometry of Particle Standing Waves

Authors: Jeff Yee, Heinz-Dieter Hauger
Comments: 5 pages

A particle's standing wave is modeled as a combination of two waves: incoming spherical waves that are reflected to produce outgoing spherical waves. The combination creates standing waves to the particle's radius, where such standing waves cease to form and then transition to traveling waves. This paper models wavelength distances that decrease from the core of the particle, to its transition point.
Category: High Energy Particle Physics