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| viXra.org > High Energy Particle Physics > 2604 |
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[6] viXra:2604.0113 [pdf] submitted on 2026-04-29 10:20:27
Authors: Bodo Lampe
Comments: 19 Pages.
A framework is analyzed where the Standard Model physics emerges as a low-energy effective field theory on a (7+1)D spacetime and Minkowski space is a monolayer composed of unresolvable tetrahedral unit cells at the Planck scale. We demonstrate that the SSB of the isospin cells into a chiral all-out configuration naturally generates a local O(4) isospin symmetry which governs the dynamics of the Higgs doublet and the mass hierarchy of the electroweak sector. By identifying the axial generators of the broken symmetry with massive vector bosons, we recover the electroweak phenomenology. The inherent handedness of the isospin vacuum provides a 7D origin for parity violation, establishing a direct link between the topology of the unresolvable spatial lattice and the observed chiral nature of weak interactions. The role of the O(4) symmetry of the Higgs potential is elucidated, and how the SM custodial symmetry is associated to neutrino masses, the latter being obtained from isospin-orbit coupling between isospins and the Planck lattice.
Category: High Energy Particle Physics
[5] viXra:2604.0111 [pdf] submitted on 2026-04-28 23:35:04
Authors: Miroslav Pardy
Comments: 7 Pages. Original article
The problem of scattering of the spinless by the spinless particles is considered under the condition that no other particles are created during the interaction. The matrix element of the scattering is defined and it is extracted fromthe general action of the current-current form. The differential cross section is then determined and the limiting formulas of it for the very high energy and very low energy is derived.
Category: High Energy Particle Physics
[4] viXra:2604.0086 [pdf] submitted on 2026-04-22 20:37:16
Authors: Taiwei Song
Comments: 3 Pages.
Based on the Geometry of Spacetime Structures, this short paper briefly argues the importance of the neutron in the creation of natural spacetime. It also uses only the most fundamental natural constants to simply and precisely derive and calculate the energy levels and lifetimes of the neutron and deuteron 2H.
Category: High Energy Particle Physics
[3] viXra:2604.0076 [pdf] submitted on 2026-04-21 23:40:45
Authors: Wim Vegt
Comments: 47 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)
Achieving stable magnetic confinement in nuclear fusion plasmas remains a profound theoretical and engineering challenge. Fundamentally, plasma confinement is a problem of macroscopic force density equilibrium. However, standard Magnetohydrodynamic (MHD) models treat mechanical fluid dynamics and electrodynamics as coupled but distinct systems, often relying on fragmented approximations that struggle to predict complex plasma instabilities.This paper introduces a unified theoretical framework that seamlessly integrates the mechanical fluid dynamics of the Navier-Stokes equations (governing mechanical pressure and fluid velocity) with the Local Interaction Field Equilibrium (LIFE) theory. By strictly expressing all physical interactions—including mechanical pressure, radiation pressure, electromagnetic field tensors, inertia, and gravitational coupling—in identical dimensions of force density (N/m3), we derive a single, continuous equilibrium field equation.This exact dimensional consistency eliminates the mathematical boundaries between the material plasma (Deuterium infusion) and the energetic confinement fields (microwave heating and magnetic containment). The resulting unified N/m3 equation provides a novel, rigorous analytical foundation for understanding high-energy plasma dynamics, offering new predictive pathways for mitigating instabilities in Tokamak and stellarator confinement systems.
Category: High Energy Particle Physics
[2] viXra:2604.0034 [pdf] submitted on 2026-04-10 16:24:18
Authors: Yu. E. Zevatskiy
Comments: 4 Pages.
The operating principle of an engine based on utilizing collision impulses of absolutely stationary particles with bodies of galaxies receding from the epicenter of the Big Bang in accordance with Hubble’s law is determined. A method for detecting radiation from absolutely stationary particles and an engine model converting the collision energy of absolutely stationary particles into mechanical work are proposed. This work may serve as a starting point for research that has never been conducted before.
Category: High Energy Particle Physics
[1] viXra:2604.0029 [pdf] submitted on 2026-04-09 09:15:32
Authors: Salvatore Minutoli
Comments: 10 Pages.
We present a comprehensive numerical study of the radion stabilisation mechanism within a higher-dimensional emergent gravity framework. Starting from a ten-dimensional construction, we perform a dimensional reduction to an effective four-dimensional theory containing a radion field $phi(x)$ and a set of internal excitation modes $psi(x)$. The effective potential $V_{text{eff}}(phi,psi)$ is derived, featuring competing power-law terms that naturally admit a stable minimum without fine-tuning. By solving the coupled equations of motion numerically, we demonstrate dynamical stability of the vacuum and extract the radion mass. A systematic parameter scan confirms the robustness of the stabilisation mechanism over a wide range of couplings. We confront our predictions with current LHC data from ATLAS and CMS, showing that the predicted radion mass $m_phi sim mathcal{O}(teV)$ lies in a region partially accessible to Run 2 searches, with further discovery potential at the High-Luminosity LHC. Our results provide strong support for the internal consistency of emergent gravity scenarios and offer a clear phenomenological target for future collider experiments.
Category: High Energy Particle Physics
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