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[6] ai.viXra.org:2505.0170 [pdf] submitted on 2025-05-25 01:07:02
Authors: Radoslav Balog
Comments: 8 Pages. (Note by ai.viXra.org Admin: Author name is required in the article)
We report the discovery of approximate integer linear relationships connecting fundamental particle masses via combinations of the electron and muon mass. The tau lepton, proton, and neutron exhibit the relationships m = neme + nµmµ with integer coefficients (ne,nµ) and errors below 0.05%. Monte Carlo analysis indicates statistical significance well beyond chance, with p-values ranging from 10−4 to 10−5. These results suggest an unexpected empirical structure in mass generation. Based on observed patterns, we predict three new mass values at 103.1, 209.3, and 318.0 MeV. The findings may motivate experimental searches and could imply interference or compositeness in mass formation.
Category: High Energy Particle Physics
[5] ai.viXra.org:2505.0142 [pdf] submitted on 2025-05-21 20:33:48
Authors: Noël Copinet
Comments: 89 Pages. (Note by ai.viXra.org Admin: An abstract in the article is required)
This scientific paper presents a new theoretical framework in particle physics that proposes a geometric and topological explanation for the origin of elementary particle masses, a fundamental problem not fully resolved by the current Standard Model. Fundamental ApproachCentral Concept The main idea is to treat energy as a true geometric dimension (a 5th dimension) compactified on a circle. In this approach, elementary particles are represented as "topological solitons" (stable field configurations) in this extra dimension, and their masses naturally emerge from the geometric and topological properties of this dimension.Innovation Compared to Existing TheoriesUnlike the Standard Model, which requires arbitrary Yukawa couplings to reproduce observed masses, this theory proposes that these masses are topological invariants determined by the geometry of 5-dimensional spacetime. I claim to achieve remarkable accuracy (less than 2% average relative error) in predicting observed fermion masses.Mathematical FrameworkThe theory is based on a 5-dimensional spacetime equipped with a pseudo-Riemannian metric, where the fifth dimension (denoted 'e') is compactified on a circle. The fundamental action includes:1.A standard kinetic term for fields propagating in this space2.An effective potential including non-linear interactions3.Couplings to spacetime curvatureThe resulting equations of motion lead to soliton-type solutions in the compactified dimension, classified by a topological quantum number ℓ. This quantum number directly determines the mass of the corresponding particle according to a specific relation involving fundamental scales and instanton actions.Main ResultsPrediction of Fermion MassesThe most impressive aspect of the theory is its ability to reproduce the entire spectrum of fermion masses (electron, up and down quarks, muon, strange quark, charm quark, tau, bottom quark, top quark) with remarkable precision:u2022Average relative error: 1.55%u2022Median error: 0.99%u2022Log-log correlation coefficient between topological index ℓ and mass: 0.9953The model naturally explains why some particles (like the electron) are very light while others (like the top quark) are very massive, without requiring fine-tuning of parameters.Mixing Matrices The theory also predicts the structure of the CKM (for quarks) and PMNS (for leptons) matrices that govern mixing between different particle flavors. These matrices emerge from overlap integrals between fermion wavefunctions in the compactified dimension.Higgs Coupling DeviationsThe model predicts specific deviations in Higgs couplings compared to Standard Model predictions:u2022Higgs-muon coupling: +2.3%u2022Higgs-tau coupling: -3.7%u2022Higgs-bottom coupling: -1.6%u2022Higgs-top coupling: +1.8%These deviations could be detected at the HL-LHC (upgraded version of the Large Hadron Collider) or in future colliders.Deep Implications for PhysicsFor Elementary Particles1.Geometric Origin of Mass: The theory suggests that mass is not a fundamental property but emerges from the topology of higher-dimensional spacetime. 2.Natural Explanation for Generations: The existence of three generations of fermions naturally follows from the topological structure of the extra dimension, which has exactly three local minima.3.Mass Hierarchy: The enormous gap between the masses of different particles (from electron to top quark) is explained by topological and non-perturbative effects. 4.Natural Seesaw Mechanism: The model incorporates a natural mechanism to explain the extremely small neutrino masses.For Cosmology and Gravity1.Modified Galactic Dynamics: The model predicts modifications to gravity at large scales that could reproduce effects attributed to dark matter.2.Galactic Rotation Curves: The model predicts a rotation velocity for galaxies that could explain flat rotation curves without invoking dark matter halos.3.Cosmological Evolution: The theory modifies the Friedmann equations, potentially explaining the observed cosmic acceleration without requiring dark energy.For Quantum Field Theory1.Geometric Unification: The theory offers a unified framework where quantum properties emerge from the geometric and topological structure of spacetime.2.Resolution of Singularities: The theory suggests a natural resolution of classical singularities in general relativity.3.Holographic Correspondence: The model naturally implements an AdS/CFT-type duality, connecting the 5D theory to a 4D conformal theory.Possible Experimental VerificationsThe model offers several precise and verifiable predictions:1.Higgs Coupling Deviations: Measurable at the HL-LHC and future colliders.2.Lepton Universality Violation: A 6.6% deviation predicted in the ratio between Higgs decays to tau-tau and mu-mu pairs.3.Higgs Self-Coupling: A 4.3% increase compared to the Standard Model.4.Primordial Tensor Modes: The model predicts a tensor-to-scalar ratio in the CMB of r = 0.048 ± 0.005.5.Galactic Rotation Curves: The predicted modified dynamics could be compared with astronomical observations.ConclusionThis theory proposes a paradigm shift in our understanding of the origin of elementary particle masses. Instead of arbitrary parameters like the Yukawa couplings of the Standard Model, it suggests that masses and flavor mixings are deeply connected to the geometry and topology of an extra compactified dimension.If this approach proves correct, it could constitute a major advance toward a more fundamental theory of physics, unifying quantum and gravitational aspects, and opening new perspectives on fundamental questions such as dark matter, dark energy, and the particle mass hierarchy.The remarkable level of precision achieved with a minimal number of fundamental parameters constitutes a strong argument in favor of this approach, although additional experimental tests are needed to definitively confirm it.
Category: High Energy Particle Physics
[4] ai.viXra.org:2505.0108 [pdf] submitted on 2025-05-19 02:49:59
Authors: Samual Ponce, Alesha D. Carlander
Comments: 92 Pages. Disributed under CC BY 4.0). Original version published at Zenodo under DOI:10.5281/zenodo.15454602
This paper presents an AI-assisted derivation and simulation of a complete scalar coherence model unifying mass, spin, and interaction without gauge fields. AI was used for simulation and derivation verification.
Category: High Energy Particle Physics
[3] ai.viXra.org:2505.0070 [pdf] submitted on 2025-05-12 21:07:20
Authors: Niklas Schießler
Comments: 3 Pages. (Note by ai.viXra.org Admin: Please cite and list sceintific references)
We propose a radical extension of AdS/CFT correspondence where our observableuniverse emerges as a meta-space boundary of a 5D anti-de Sitter bulk. The theorypredicts: (1) Discrete gravitational wave resonances at frequencies fn = n/(2πR) withR ≈ 1.6 × 1016 m, (2) 1.8 TeV multigraviton events at LHC from projected AdS5modes, and (3) CMB B-mode oscillations from primordial wormhole imprinting. Allsignatures are testable within 5-10 years.
Category: High Energy Particle Physics
[2] ai.viXra.org:2505.0036 [pdf] submitted on 2025-05-05 22:01:50
Authors: Malsteiff Rook
Comments: 2 Pages. (Note by ai.viXra.org Admin: Real author name is required on the article after the article title - No pseudonym is permitted; please cite and list scientific references))
This paper presents a higher-dimensional braneworld theory in which scalar field excitations representing quantum coherence may tunnel through supermassive black hole (SMBH) geometries into a warped extra-dimensional bulk. We derive the field equations governing this behavior, analyze the tunneling conditions, and establish a stability criterion — the Malsteiff—Rook Condition — showing that only SMBHs possess the geometric and thermodynamic characteristics required for sustained dimensional coupling. Observable predictions include gravitational-wave echoes, photon ring asymmetries, and X-ray spectral deficits. This model offers a mathematically constrained framework for investigating the potential dimensional structure of spacetime via astrophysical portals.
Category: High Energy Particle Physics
[1] ai.viXra.org:2505.0007 [pdf] replaced on 2025-05-12 14:33:36
Authors: Gregory Howell
Comments: 6 Pages.
We present a geometric model in which the masses and decay lifetimes of elementary particles emerge from quantized standing wave solutions in a structured vacuum. The vacuum is modeled as a set of nested curvature shells, each with distinct tension and confinement properties. Particles are interpreted as curvature resonance modes, quantized by integer standing wave conditions. Using a Schrödinger-like curvature wave equation, we derive mass eigenvalues that match known leptons and baryons with sub-percent precision, including the electron, muon, tau, proton, and neutron. Decay is modeled as resonance leakage between shells, governed by a curvature tension mismatch. We propose a vacuum Lagrangian that supports these resonant modes, and show that particle lifetimes scale naturally with curvature tension. This framework reproduces key features of the Standard Model without field couplings or adjustable parameters, offering a geometric origin for mass, stability, and decay.
Category: High Energy Particle Physics