| viXra.org > High Energy Particle Physics > 2407 |
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| viXra.org > High Energy Particle Physics > 2407 |
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[6] viXra:2407.0176 [pdf] submitted on 2024-07-30 00:15:38
Authors: Thiago M. Nóbrega
Comments: 6 Pages. (Note by viXra Admin: Please cite and list scientific references)
This paper presents a groundbreaking framework aimed at solving the Yang-Mills existence and mass gap problem. By integrating advanced techniques from functional analysis, gauge theory, geometric analysis, non-commutative geometry, and quantum field theory, I propose a novel and rigorous approach. This framework meticulously constructs the Hamiltonian, applies concentration-compactness principles, and leverages topological and geometric insights to establish the existence of a mass gap. Concrete examples and applications underscore the robustness of this methodology. Furthermore, verification of the field strength tensor and the Yang-Mills action using symbolic computation demonstrates the validity of the theoretical constructs. The verification script is available at https://github.com/mmtmn/yang-mills-novel-framework.
Category: High Energy Particle Physics
[5] viXra:2407.0139 [pdf] submitted on 2024-07-24 19:29:04
Authors: Ervin Goldfain
Comments: 4 Pages.
The Standard Model of particle physics postulates that the (mass) ^ 2 term of the Higgs potential is negative. This choice is considered unnatural and leads to the tachyonic mass problem. It is known that the formulation of the Higgs mechanism relies on the standard Ginzburg-Landau equation describing equilibrium phase transitions. It is also known that the Complex Ginzburg-Landau equation (CGLE) is a universal model of complex dynamics outside equilibrium. This brief note suggests that the tachyonic mas problem goes away upon switching from the standard Ginzburg-Landau equation to the CGLE.
Category: High Energy Particle Physics
[4] viXra:2407.0105 [pdf] replaced on 2024-09-05 20:41:04
Authors: Sheng-Ping Wu
Comments: 13 Pages.
This article tries to unified the four basic forces by Maxwell equations, the only experimental theory.Self-consistent Lorentz equation is proposed, and is solved to electrons and the structures of particles and atomic nucleus. The static properties and decay are reasoned, all meet experimental data. The equation of general relativity sheerly with electromagnetic field is discussed as the base of this theory. In the end the conformation elementarily between this theory and QED and weak theory is discussed.
Category: High Energy Particle Physics
[3] viXra:2407.0099 [pdf] replaced on 2024-10-17 14:12:41
Authors: Ichiro Nakayama
Comments: 10 Pages.
The fine-structure constant is generally considered to be a coupling constant that represents the strength of the electromagnetic interaction of elementary particles, but its origin is unknown. Using the electron and proton model of energy body theory, I clarified the origin of the fine-structure constant from the relationship between Coulomb's law and Planck's constant.
Category: High Energy Particle Physics
[2] viXra:2407.0049 [pdf] submitted on 2024-07-06 17:33:42
Authors: Robert A. Close
Comments: 19 Pages. Foundations of Physics (2025) 55:27 https://doi.org/10.1007/s10701-025-00839-0
Plane waves of spin angular momentum density in an ideal elastic solid are analyzed using vector and bispinor descriptions. In both classical and quantum physics, spin density is the axial vector field whose curl is equal to twice the incompressible intrinsic momentum density. The second-order vector wave equation assumes that temporal changes of spin density in an ideal elastic solid are attributable to convection, rotation, and torque density. The corresponding first-order wave equation for Dirac bispinors incorporates terms describing wave propagation, convection, rotations of the medium and rotations of wave velocity relative to the medium. The two rotation terms are also operators for rotational kinetic energy and conventional potential energy, respectively. The potential energy corresponds to half the mass term of the free electron Dirac equation. Bispinor plane wave solutions are constructed consistent with the usual dynamical operators of relativistic quantum mechanics. Lagrangian and Hamiltonian densities are also constructed with each term having a clear classical physics interpretation. The intrinsic momentum associated with the Belinfante-Rosenfeld stress tensor is explained. Application to elementary particles is discussed, including classical physics analogues of the Pauli exclusion principle, interaction potentials, fermions, bosons, and antimatter.
Category: High Energy Particle Physics
[1] viXra:2407.0012 [pdf] replaced on 2024-07-05 16:17:52
Authors: Zhi Cheng, Jun Luo
Comments: 24 Pages.
This paper explores the impact of rising global temperature on the melting of ice floes and ice sheets in the Arctic Ocean, Greenland and Antarctic. This paper notes that the current understanding of the impact of climate change on Arctic, Greenland and Antarctic ice floes and ice sheets may be significantly underestimated. This article presents evidence from three aspects. The first is the rate of global temperature rise after the end of the Last Glacial Maximum (LGM), which is now 10 times faster than after the end of the LGM. This also means that the current rate of sea level rise will also be likely to be 10 times faster than the rate of sea level rise at that time. The second piece of evidence is the analysis and fitting of curves from the available observation data, and many of the polynomial formulas that fit the curves show that the magnitude of sea level rise due to global climate change is accelerating. Some results suggest that global sea levels are likely to rise to around 10 meters by about 2050. The third piece of evidence is the very simple model of the impact of rising global temperature on Arctic Greenland and Antarctic ice floes and ice sheets. The model's estimates also suggest that global sea level will rise by about 7 meters by about 2050 due to the dissolution of the Antarctic and Greenland ice sheets. In any case, these evidences suggest that the magnitude of sea level rise in the coming decades will be enormous, and this will certainly affect the development of human society. Therefore, this article calls on countries around the world to take proactive measures to respond to this rapid sea level rise as soon as possible. These responses may include, but are not limited to, large-scale population migrations, the construction of coastal dams, and more. Given the drawn-up to rapid global sea level rise, especially in countries like China and the United States, coastal dam construction should begin planning and pre-construction work now. When looking at the magnitude of sea level rise in the future, we consider it important to reach a rate of rise of 1 centimeter per year, which means that the rate of sea level rise will be unprecedented after that.
Category: High Energy Particle Physics
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