| viXra.org > High Energy Particle Physics > 2511 |
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| viXra.org > High Energy Particle Physics > 2511 |
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[6] viXra:2511.0137 [pdf] submitted on 2025-11-28 02:56:54
Authors: G. K. Artimovich
Comments: 38 Pages. In Russian
The second part of the article is devoted to the transition from classical to quantized fields. The concept of the product of field operators is reconsidered. On this basis, a modified postulate of canonical quantization is formulated. An equation of motion for operators that differs from the generally accepted one is proposed. Using the example of the polarization operator, it is demonstrated that the modified theory can solve the problem of ultraviolet divergences.
Category: High Energy Particle Physics
[5] viXra:2511.0092 [pdf] submitted on 2025-11-18 09:35:05
Authors: Rainer W. Kühne
Comments: 22 Pages.
Dirac magnetic monopoles are hypothetical elementary particles. By assuming their existence one can explain the quantization of electric charge, the August Kundt experiment, and the conservation of baryon and lepton number. Here I present a new nomenclature where I redefine isospin and hypercharge. By doing so I explain baryon and lepton number conservation as an effect of the electric-magnetic duality and the $U(1)times U(1)$ gauge symmetry of quantum electromagnetodynamics. By using this method I predict the quantum numbers of an octet of magnetic monopoles. Another surprising result is that both leptons and quarks have nonzero magnetic isospin, a new quantum number. Moreover I show that Dirac magnetic monopoles can form low-mass bound states which are analogous to mesons, baryons, atoms, and molecules. I point out that these bound states could be the major component of cold dark matter. The PandaX Collaboration reported an excess of 4.3 events above the background in the PandaX-4T experiment. The best fit for this excess was obtained for a WIMP mass of 6 GeV. Here I show that both the mass and the interaction cross-section are compatible with bound states of Dirac magnetic monopoles.
Category: High Energy Particle Physics
[4] viXra:2511.0086 [pdf] submitted on 2025-11-18 00:44:39
Authors: V. F. Chibisov, I. V. Chibisov
Comments: 14 Pages.
According to data from the Planck space observatory, the total mass-energy of the observable universe consists of 4.9% ordinary (baryonic) matter, 26.8% dark matter, and 68.3% dark energy. Thus, the universe is 95.1% dark matter and dark energy. For several decades, science has been struggling to understand these dark entities and to experimentally detect their carriers. This article attempts to answer these questions.
Category: High Energy Particle Physics
[3] viXra:2511.0074 [pdf] submitted on 2025-11-16 18:26:15
Authors: Fabrizio Vassallo
Comments: 7 Pages.
Some applications of a preon model, presented in previous articles, are proposed. The model derives from the concept of bifurcation from theory of nonlinear dynamical systems applied to particle physics, and predicts the existence of mass quanta linked together by a recursive and scale-invariant relation. It also makes use of the concepts of fractional spin, superluminality and variable dimensions of spacetime.
Category: High Energy Particle Physics
[2] viXra:2511.0060 [pdf] submitted on 2025-11-13 22:03:59
Authors: G. K. Artimovich
Comments: 25 Pages.
Modern quantum theory was born in 1925 — exactly 100 years ago — in the works of W. Heisenberg, P. Jordan, and M. Born. However, one of its main problems — the problem of so-called ultraviolet divergences — remains unsolved to this day. The purpose of this article is to develop a modified quantum theory that (at least partially) solves the problem. The article consists of three parts. The first part, presented here, outlines a modified theory of non-quantized fields. The true gauge group of electrodynamics is determined. A modified Lagrangian of electromagnetic interaction is proposed. A hypothesis regarding the nature of so-called dark energy is put forward.
Category: High Energy Particle Physics
[1] viXra:2511.0045 [pdf] replaced on 2025-11-17 21:49:59
Authors: Ervin Goldfain
Comments: 30 Pages.
According to [1-3], there are compelling reasons for connecting the continuous and evolving dimensionality of spacetime above the Standard Model (SM) scale to the onset of complex dynamics in the deep ultraviolet sector of field theory. A key observation inspired by this viewpoint is that dimensional fluctuations unfolding in far-from-equilibrium conditions lead to the complex Ginzburg-Landau equation (CGLE), a universal model of nonlinear phenomena. Framed as sequel to [4-5], this work advances a novel interpretation of the Higgs mechanism as emerging manifestation of CGLE. Our interpretation focuses on the reduction of CGLE to the behavior of an overdamped scalar field and the formation of supercritical Hopf bifurcations. We find that, in this classical picture, Hopf bifurcations provide an analog description of the Higgs condensate and the standard mechanism of electroweak symmetry breaking. Built entirely outside Lagrangian field theory, our approach suggests unconventional explanations of the SM structure and the emergence of broken discrete symmetries in electroweak interactions.
Category: High Energy Particle Physics
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