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[7] ai.viXra.org:2604.0099 [pdf] submitted on 2026-04-29 20:46:56
Authors: Andrew Ebanks
Comments: 9 Pages.
The Koide formula (Q = 2/3) has resisted derivation from first principles since its discovery in1981. We show that within the Fibonacci-Tetrahedral Lattice (FTL) framework, the Koide constant2/3 is a geometric identity of the fundamental tetrahedral node angle: −2 cos(109.471◦) = 2/3.The visible lepton generations are identified as orientational modes of a tetrahedral topologicaldisclination, governed by a universal Fibonacci gate selection rule (m ∝ ϕn). We extend thisframework to the quark sector and the neutrino sector, deriving a zero-parameter master equation forthe entire fermion spectrum. The extreme smallness of neutrino masses is shown to be a consequenceof recursive lattice frustration, with the heaviest neutrino predicted at m3 ≈ 0.048 eV. Quarkconfinement emerges as a mechanical lattice frustration, and the observed mass hierarchy is shownto be a dynamic outcome of impact-driven phase transitions. These results suggest that the matterspectrum is not a collection of arbitrary parameters but a geometric projection of the vacuum latticetopology.
Category: High Energy Particle Physics
[6] ai.viXra.org:2604.0096 [pdf] submitted on 2026-04-27 17:58:26
Authors: B. G. Preza
Comments: 9 Pages. Creative Commons Attribution 4.0 International
We propose a speculative but physically motivated framework in which extreme spacetimecurvature dynamically modifies the effective potential of the Higgs field, driving the Higgsvacuum expectation value toward zero and producing a local restoration of electroweaksymmetry inside black-hole interiors. In this regime, ordinary massive matter is reclassifiedinto a relativistic field-dominated phase, increasing the effective internal capacity of thesystem through geometric and modal degrees of freedom rather than through classicalvolume alone. We introduce a two-phase interpretation: Phase I, curvature-induced Higgssymmetry restoration, in which mass generation is suppressed; and Phase II, chirality-imprintpreservation, in which the chiral architecture of weak interactions survives despite thesuppression of Higgs-generated mass. We further propose that internal energy redistributionproceeds through coherent resonant modes regulated by nodal structures termed echoshadows, whose collective excitation defines the internal scream. The resulting picturereinterprets the classical singularity not as an infinite-density endpoint, but as a vacuumphase transition in which matter, fields, and geometry are reorganized into a higher-capacityinternal regime. The framework is intentionally exploratory and is presented as a conceptualbridge between the Higgs mechanism, quantum fields in curved spacetime, black-hole interiors,and dimensional-sufficiency approaches to singularity avoidance.
Category: High Energy Particle Physics
[5] ai.viXra.org:2604.0067 [pdf] submitted on 2026-04-17 11:00:55
Authors: Bertrand Jarry
Comments: 44 Pages. Creative Commons Attribution 4.0 International (CC-BY 4.0)
We present the Planck Vacuum Thermal Theory (PVTT), a programme that derives five Standard Model constants from a single geometric object: the ZarembaKMS Dirac operator D_Z on S^3 (c^* )×S_β^1×A_F, where A_F=M_2 (H)⊕M_4 (C). The programme rests on an ontological inversion: the quantum vacuum KMS state ω_"KMS " is the primary object of physics; General Relativity and quantum field theory are derived low-energy descriptions, in the same way a topographic map is a derived projection of the terrain it represents.From three postulates and a unique self-consistent fixed point c^*=3/2 (determined by the spectral occupation equation M_0 (c^* )^2 N_F=π ), we derive: Newton's constant ( 5.3% ), the electroweak VEV v=243GeV ( 1.1% ), the Higgs stability boundary m_H^"stab " =129.3GeV ( <0.1GeV from the SM NNLO value), the top Yukawa y_t (Λ_UV )=0.40702(0.005%), and three fermion generations (exact, from Poincaré duality combined with the KMS phase coherence c^*=n_"gen " /2 ).Eight exact mathematical results underpin the programme: ζ_Z (0)=-1/4,det_Z=4/3,kerD_Z={0},χ_A^2=0,a_4^"corner " =1/8,n_(A_F )=47/4,G(q_6 )=227/48, and c^*=n_"gen " /2. Three open problems are precisely formulated.The 4 GeV gap between m_H^"stab " and the observed m_H^"obs " =125.25GeV is identified as a measurement of electroweak vacuum metastability at 2.3σ, not an error of the framework.
Category: High Energy Particle Physics
[4] ai.viXra.org:2604.0059 [pdf] submitted on 2026-04-14 22:35:09
Authors: Andrew Ebanks
Comments: 6 Pages.
Observations of the nuclear modification factor (RAA) in central Pb—Pb collisions at √sN N = 2.76, 5.02, and 5.36 TeV exhibit a persistent, energy-independent suppression floor at RAA ≈ 0.15.We demonstrate that this stability is statistically inconsistent at > 2σ with the logarithmic energy dependence predicted by perturbative QCD and instead matches a parameter-free geometrictransparency prediction (Φ = 0.147) derived from a discrete Fibonacci-Tetrahedral Lattice (FTL)model. Furthermore, three-particle azimuthal correlations reveal a 6.8σ angular excess at 1.91 radians (109.47◦), corresponding to the tetrahedral vertex angle arccos(−1/3). This structural signature distinguishes the vacuum lattice from standard harmonic flow coefficients (vn). We propose a definitive test of the discrete vacuum hypothesis through the prediction of a quantized phase transition at √sN N = 8.66 TeV, where the RAA floor is expected to shift to ≈ 0.24.
Category: High Energy Particle Physics
[3] ai.viXra.org:2604.0048 [pdf] replaced on 2026-04-18 21:48:50
Authors: Alberto Coe
Comments: 5 Pages.
This paper proposes a mass quantization model based on a logarithmic scaling lattice with a harmonic base of 3/2, derived from the fundamental geometric properties of a unit cube. Using the electron rest mass as the fundamental frequency, we demonstrate that elementary particle masses (quarks, leptons, and gauge bosons) and ground energy level of Hydrogen atom align with specific nodes of a lattice defined by Ek=Eref32k .A statistical analysis yields a p-value of 0.00475 , indicating a confidence level exceeding 99%.Furthermore, we introduce a novel heuristic formula relating the 3/2 ratio,the Bohr radius , the fine-structure constant and a specific mass scale M1012kg suggesting a geometric link between gravitational and electromagnetic constants.
Category: High Energy Particle Physics
[2] ai.viXra.org:2604.0036 [pdf] submitted on 2026-04-09 20:04:17
Authors: J. L. P. R. Fernandes
Comments: 5 Pages. (Note by ai.viXra.org Admin: Please cite listed scientific references)
This work challenges several fundamental assumptions of modern physics, proposing an alternative nature in which proper time, its property, rather than the geometry of spacetime, constitutes the main physical variable. It argues that key concepts traditionally considered fundamental—namely, spatial contraction, the invariance of the speed of light as an absolute natural limit, and the strict separation between the nature of matter and radiation—are interpretative constructs, rather than inevitable consequences of empirical evidence or mathematical formalism.In this framework, relativistic phenomena emerge from variations in the temporal regime of physical systems, determined by their energy conditions, without requiring any physical contraction of space. Proper time is elevated to a defining criterion of materiality: systems that possess internal dynamics exhibit proper time, while its absence defines a distinct physical regime.Rest mass is reinterpreted as a regime-dependent parameter, associated with the existence of proper time, rather than a fundamental attribute of matter. C is reformulated as a limit that separates regimes with and without proper time, rather than a purely kinematic limit. From this perspective, light is described not as an entity distinct from matter, but as an extreme state of matter characterized by zero proper time and zero rest mass, while still maintaining full physical capacity for interaction.In this approach, the need for physical space contraction is eliminated, while remaining compatible with established experimental results. The proposed framework offers a unified and conceptually unified interpretation of matter, energy, and radiation, and opens the possibility of new experimental criteria capable of distinguishing between the geometric and temporal nature of physical reality.
Category: High Energy Particle Physics
[1] ai.viXra.org:2604.0026 [pdf] submitted on 2026-04-07 18:53:59
Authors: Luiz Felipe Coutinho Martins Filho
Comments: 8 Pages.
We develop a conceptual framework proposing that the Big Bang constitutes a force polarity inversion event within a pre-existing gauge sector the substrate which we identify with what is currently observed as dark matter. A discrete transformation T, acting on the substrate's gauge fiber bundle while leaving spacetime geometry invariant, produces a derived sector (our Standard Model) whose gauge representations are orthogonal to the substrate's. Gravity, as a property of the base manifold, survives as the sole inter-sector channel. A companion paper [1] proves the gauge incompatibility and gravitational invariance theorems kinematically and presents a toy model (SU(5)_L × SU(5)_R × Z_2) with anomaly cancellation, BBN compatibility, and quantitative predictions.The present paper extends the framework to six conjectural directions, each requiring independent formalization: (i) dark matter invisibility as structural gauge incompatibility (zero coupling by algebra, not tuning); (ii) wave-particle duality as competition between substrate and visible-sector gauge regimes, with measurement as regime-dominance transition; (iii) quantum probability as a resolution limitation imposed by the derived sector's inherited energy ceiling, raising the possibility that the Born rule may be derivable rather than postulated; (iv) entanglement as single-entity projection from the substrate, reinterpreting non-locality as a geometric artifact; (v) dark energy as the gravitational-thermodynamic effect of the substrate's vastly greater mass-energy on the derived sector, potentially reducing the three cosmological parameters (5%, 27%, 68%) to consequences of a single mechanism; and (vi) an observable multiverse from multiple inversion events sharing the same gravitational manifold, testable through gravitational wave spectral structure and CMB anomalies. The framework is positioned relative to existing programs (mirror matter, hidden sectors, CPT cosmology, Nelson's stochastic mechanics, de Broglie-Bohm pilot wave theory) and a detailed formalization roadmap is provided. A speculative appendix explores the speed of light as an inherited energy constraint of the derived sector.
Category: High Energy Particle Physics