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[10] viXra:2512.0145 [pdf] replaced on 2026-02-14 01:25:10
Authors: Arghirescu Marius
Comments: 21 Pages.
The paper analyses the cold genesis of electron and of vector photon considered in a vortical model, from a primordial dark energy having a brownian component and a wind-like component of an etherono-quantonic medium, containing also heavy (sinergonic) etherons and quantons with mass mh = h.1/c^2 , by two equation of dynamic equilibrium and by a u201asinergonic’ force of Magnus-type. It was deduced that in the actual cosmic era, for the cold forming of these leptons would be necessary a critical density of sinergons: p_s^0 + p_sv^0 ≈ 7.2x10^18 kg/m^3 and a critical induction associated to the fomed vortex-tube: B^0(r_v^k) = 3.37x10^17 T , respective -B^0(r_0) = 0.79x10^16 T, for the forming of light vector photons with mass m_v ≈ 2.3x10_-40 kg and of electronic centroids, but in the begining of the Proto-Universe era these particles could have been formed from slowed quantons, confined by a less intense sinergonic vortex, either with a density p_s > p_s^0(r_v), at an associated vortex-field intensity: B < B_0, or at p_s < p_s^0(r_v), by a gravito-magnetic potential V_gm(r) , if the rotation speed of vortexed quantons not exceed a critical value v_c^c = k_cc, with k_c = v_hp_sv^cs/(sqrt2)m_h , corresponding to a critical Bc-field associated to the etherono-quantonic vortex: B_c = k_1p_sv^c(rv)w = k_1p_s^c(r_v)k_cc. Some theoretical implications of the magnetic field’s vortical nature, including the perpetual rotation of atomic electrons and the Compton radius of proton are analysed.
Category: High Energy Particle Physics
[9] viXra:2512.0130 [pdf] submitted on 2025-12-28 02:27:29
Authors: D. G. Grossman
Comments: 7 Pages.
The most precise mass determination of the charged pion listed by Particle Data Group is the one by Daum. Hypersphere factoring of that mass yields a theoretical mass that is only 0.00006 MeV from the experimentally determined value and well within the .00014 MeV experimental error. The most amazing thing about this analysis is that the best hypersphere surface volume factoring of the pion’s mass was done with the surface volume of a unit radius 28-sphere, suggesting that the charged pion is a 28 dimensional object. (It appears 3-dimensional to us because it is attached to the Higgs field — which is 3 dimensional - and so moves with only 3 degrees of dimensional freedom as one would expect of a 3-dimensional particle.)Is the pion 28 dimensional? Examine the factoring and decide for yourself.
Category: High Energy Particle Physics
[8] viXra:2512.0102 [pdf] submitted on 2025-12-23 23:03:42
Authors: Miroslav pardy
Comments: 7 Pages. Original article
The probability of the emission of the electron-positron pairs is calculated from the mass operator formalism introduced by Milton at al. (1981). Thisformalism is used to estimate the rate of theelectron-positron pair production by virtualtual synchrotron photons. The rate is governed bythe very small function and therefore the process is beyond the possibility of experimental observation.
Category: High Energy Particle Physics
[7] viXra:2512.0097 [pdf] submitted on 2025-12-21 21:14:24
Authors: Nigel B. Cook
Comments: 3 Pages.
We present a simple model of two interacting Majorana fermions that, in its bosonizedform, exhibits a soliton spectrum in the strong-coupling regime. When the couplings areappropriately tuned, the masses of the composite bosonic excitations follow a quantizedpattern of the form m_(n,N) ≈ n(N + 1)mZα/(2π), where n is a positive integer (principal quantum number), N is a non-negative integer (shell index), m_Z is the Z-boson mass, and α is the fine-structure constant. This spectrum emerges naturally from the multi-soliton and shell-like excitations in the coupled sine-Gordon model and provides a direct realization of the quantized mass formula proposed in [1] for charged fermions. The result suggests that shell-structured quantization may be a universal feature of strongly coupled fermionic systems with periodic potentials.
Category: High Energy Particle Physics
[6] viXra:2512.0060 [pdf] submitted on 2025-12-14 00:32:59
Authors: Azzam Almosallami
Comments: 2 Pages. (Note by viXra Admin: Please cite listed scientific references and submit article written with AI assistance to ai.viXra.org)
We present a novel interpretation of light prop-agation under velocity-dependent conformal Lorentz transformations (CLT). The conformal factor introduces a coordinate-dependent "medium" through which light propagates, while preserving the physical invariance of the speed of light. Theproperties of this medium are directly linked to relativistic kinetic energy, resulting in a velocity-dependent effective refractiveindex. Furthermore, the inverse transformation for observers in the moving frame gives rise to an imaginary refractive index, reflecting coordinate contraction and phase-like distortions.Nonlinear effects are also considered, where the refractive index varies nonlinearly with velocity or energy. This framework offers a unified view connecting relativistic energy.
Category: High Energy Particle Physics
[5] viXra:2512.0044 [pdf] submitted on 2025-12-09 15:49:23
Authors: Hyoyoung Choi
Comments: 23 Pages.
In this paper, we present a compelling alternative to the Standard Model's Higgs mechanism. Our framework is built on two core principles: 1) the mass of particles originates from the self-energy of their associated gauge fields, where composite particles exhibit effective charges arising from gauge dynamics, and 2) certain massive bosons are composite systems. We model the Z^0 and H^0 bosons as the ground and first excited states of a composite W^+ W^− system. The most powerful aspect of this work is our striking, model-independent prediction: the binding distances of Z^0 and H^0 are related by r_H ≈ 2r_Z. This relationship naturally explains their spin difference-vector Z^0 (S=1) and scalar H^0 (S=0)-as triplet and singlet states of the W^+W^− system. Our model makes concrete, falsifiable predictions, including a second excited state with a predicted mass of approximately Z_3 ≈135.4 GeV. The search for this resonance at future colliders constitutes a crucial test that could serve as key experimental evidence for questioning fundamental assumptions about electroweak symmetry breaking. By identifying Z^0 and H^0 as different states of the same underlying system, we explain their masses without invoking the Higgs field, thereby resolving the vacuum energy fine-tuning problem. The Higgs mechanism appears to be an unnecessary construct, as the problem it addresses finds a more natural solution in the inherent properties of effective charges emerging from gauge dynamics and composite structures.
Category: High Energy Particle Physics
[4] viXra:2512.0037 [pdf] submitted on 2025-12-09 00:38:15
Authors: Robert L. Galambos
Comments: 8 Pages. https://doi.org/10.5281/zenodo.17854959 (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)
Building upon the fermion mass ratio formulas established in Paper II, we demonstrate that the complete charged fermion mass spectrum exhibits a two-dimensional lattice structure with basis vectors (5, 6). Every fermion mass satisfies m = mu2091 × φu207f where n = 5a + 6b for integers a, b, and φ = (1+√5)/2 is the golden ratio. The basis vectors have geometric interpretations: 5 = (φ + φu207b¹)² encodes self-referential structure, while 6 = D/τ connects spatial dimension D = 3 to the Aionity fixed point τ = 1/2. We provide complete lattice coordinates for all nine charged fermions, explain the systematic error pattern as renormalization group flow from bare geometric masses to physical dressed masses, and derive predictions for neutrino masses at negative lattice positions. The constraint b_max = D − 1 = 2 explains why exactly three generations of fermions exist. Zero free parameters.
Category: High Energy Particle Physics
[3] viXra:2512.0034 [pdf] submitted on 2025-12-08 17:24:56
Authors: Deepak Pashilkar
Comments: 20 Pages.
Masses of the three neutrino mass eigenstates are predicted to be m0, 4m0 & 22m0 where m0 = 2.281 meV/c². These predictions are arrived at by applying two ad-hoc postulates to neutrino oscillation data. First postulate is that the mass m0 of the lightest neutrino mass eigenstate is the smallest quantum of mass and masses of all the massive elementary particles are positive integer multiples of m0. The dimensionless gravitational coupling constant αg is then defined as, αg = m0/Mp, where Mp is the Planck Mass. The second postulate is that the dark energy is represented by a cosmological constant Λ or, equivalently, a vacuum energy with constant density ρΛ = αg4 ρp, where ρp is the Planck Density. These postulates also lead to the prediction of the value of (dimensionless) vacuum energy density to be ΩΛ h2 = 0.3344, in agreement with the ΛCDM model. Furthermore, the effective electron neutrino mass in β decay is predicted to be mβ = 9.185 meV/c². We also predict the effective Majorana mass of electron neutrino to be mββ ≤ 5.803 meV/c². This upper bound on mββ is then used to calculate lower bounds on half-lifes of various isotopes expected to undergo a neutrinoless double beta (0νββ) decay. Finally the two postulates are used to construct a natural system of units.
Category: High Energy Particle Physics
[2] viXra:2512.0013 [pdf] submitted on 2025-12-04 20:11:24
Authors: Ervin Goldfain
Comments: 33 Pages.
We put forward a theoretical framework in which fermion masses and mixing angles arise from the unstable oscillations of the Higgs condensate near a Hopf bifurcation. These fluctuating modes generate phase differences corresponding to the observable mixing angles and the strong CP phase. Our analysis provides a minimal route from universal Hopf bifurcations to the CKM/PMNS phenomenology.
Category: High Energy Particle Physics
[1] viXra:2512.0009 [pdf] submitted on 2025-12-05 01:24:08
Authors: Tai Wei Song
Comments: 22 Pages.
This paper reconstructs the logical foundations of the physical and mathematical theories thatreveal the most fundamental laws of the natural world, based on the Geometry of Space-TimeStructures created by the author. There are no quarks in the natural world, and the mostfundamental particles in the natural world are protons and electrons. Protons p+ in atomic nuclei can form strong mutual attraction by exchanging electrons e− in their immediate neighborhood, there are no neutrons in atomic nuclei. Cosmic expansion does not exist,redshift is a natural phenomenon in the macroscopic world. Geometry of Space-Time Structures is the geometry of motion, which truly reveals the relationships and inner laws of motion and change in the natural world.
Category: High Energy Particle Physics
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