|
 |
[13] ai.viXra.org:2601.0119 [pdf] replaced on 2026-02-20 22:24:30
Authors: Steven E. Elliott
Comments: 15 Pages.
We introduce the Fractal Substrate Equivalence Principle (FSEP) as the foundational axiom for a unified theory of physics, asserting that in a fractal universe governed by magneto-hydrodynamics (MHD), physical laws, structures, and phenomena are exactly equivalent acrossall scales upon appropriate scaling transformations. Unlike prior fractal cosmologies that treat general relativity (GR) or quantum mechanics (QM) as fundamental, the FSEP posits these as emergent scale-dependent descriptions of a single electric fluid dynamics. This principleunequivocally asserts: stars are photons, black holes are atomic nuclei, and dark matter is electron orbital shells—not as analogies, but as exact physical identities across fractal layers. We demonstrate how this single MHD substrate reproduces the essential features of QM and GR,and explains the origin of dark matter, black hole—galaxy correlations, and the fine structure of atomic spectra, within a unified electric—fluid picture.
Category: Quantum Gravity and String Theory
[12] ai.viXra.org:2601.0118 [pdf] replaced on 2026-02-23 02:46:57
Authors: Frederick Manfredi
Comments: 106 Pages.
We propose an effective classical field theory where a single anisotropic suppression rule—favoring radial flux paths and penalizing perpendicular deviations: S(θ) = 1/ϕ^6 sin^4(θ) with density-softened feedback Seff (θ, ρ) = S(θ)/(1+βρ)—generates corrections to standard GR and QFT. In the high-ρ limit, the denominator softens suppression, recovering standard physics with regular interiors and milder effects. At low/intermediate ρ, we predict testable deviations. The framework mimics key features of general relativity, quantum field theory, and Bell correlations as an effective description. Anchored in semi-Dirac quasiparticle data from materials such as ZrSiS, the rule reproduces strong Bell violations in planar geometries (CHSH up to ∼2.62 rescaled with mild low-β feedback) while predicting significant dilution (CHSH ∼0.12—1.03 dynamically rescaled) in isotropic 3D configurations—an untested signature absent in current experiments. In high-density regimes,flux rebalancing mimics GR phenomenology (Newtonian limit, linearized Einstein equations, Schwarzschild-like metrics with softened interiors) without fundamental curvature or gravitons. Within the approximations of this model, theSemi-Dirac soup reproduces quantum Bell correlations closely matching experiment via suppression nonlinearity (Appendix A)Small corrections are predicted in precision observables (e.g., g-2, black-hole ringdowns, CMB angular power), with the denominator softening high-ρ effects (milder deviations in dense interiors, QGP, nuclear cores). Falsifiable at next-generation facilities (LISA, Euclid, CMB-S4, quantum networks), the model offers a classical effective-theory alternative to standard unification frameworks, unifying gravity, quantum statistics, condensed matter, and cosmology through anisotropic flux dynamics and density softening.
Category: Quantum Gravity and String Theory
[11] ai.viXra.org:2601.0116 [pdf] submitted on 2026-01-28 01:05:10
Authors: Mat Ward
Comments: 33 Pages.
We present a conceptual framework linking gravitational curvature to entropygradients arising from dense matter organization, grounded in recent theoretical advances in entropic gravity (Bianconi, 2025) and validated against observational data from LIGO gravitational-wave events. Our central hypothesis posits that as matter concentrates at extreme densities, the relative entropy between the quantum information encoded in matter fields and the ambient spacetime metric increases sharply, driving emergent gravitational curvature through an entropy-minimization principle. Using public gravitationalwave data from GW150914 (binary black holes) and GW170817 (binary neutron stars), we demonstrate that horizon entropy increases correlate with matter density compression, supporting an informational interpretation of gravityrather than purely geometric one. This work bridges general relativity, quantum mechanics, and thermodynamics, suggesting gravity may be an emergentphenomenon tied to quantum information organization in matter-spacetime systems.Keywords: entropic gravity, quantum information, black holes, neutron stars,gravitational waves, emergence, entropy, density organization
Category: Quantum Gravity and String Theory
[10] ai.viXra.org:2601.0114 [pdf] submitted on 2026-01-28 11:27:28
Authors: Sergey Materov
Comments: 62 Pages.
We’re excited to present the pre final , revised version of our paper on the discreteu2011quantum graph theory of spacetime (Quantumograph). Initial emulations and numerical checks (see our GitHub repository) qualitatively validate the model, but true confirmation requires experiments on real quantum hardware—experiments that can already be performed using the protocol detailed in the article.
Category: Quantum Gravity and String Theory
[9] ai.viXra.org:2601.0095 [pdf] submitted on 2026-01-22 22:28:07
Authors: Herman Herstad Nythe
Comments: 14 Pages.
This paper presents a unified geometric framework in which the fundamental coupling constants of nature emerge from the combinatorics of n-simplices and the structure of the exceptional Lie group E8. The theory is governed by a lattice gauge action on the E8 root lattice, where interactions are classified by the simplicial dimension Nn = n! - 1. For electromagnetism (n=5), the unique factorization N5 = 119 = 7 × 17 into Mersenne and Fermat primes enables an Abelian projection yielding the fine structure constant α-1 = (952π - 1)/(2√119) = 137.0362 with 1.5 ppm precision. The structural decomposition α-1 = |2I| + F2 + 1/|Θ7| reveals contributions from the binary icosahedral group (generators of E8), the Fermat prime 17, and the 28 exotic differentiable structures on S7. The framework successfully derives the proton-electron mass ratio (0.0016% deviation), Higgs-to-W ratio (0.03%), Weinberg angle (0.4%), and gravitational coupling via the Catalan-Mersenne sequence (αG-1 = 2127 - 1). Three fermion generations arise from the genus-3 topology of the Klein quartic at the n=6 scale. The theory predicts a dark sector pseudoscalar resonance (JPC = 0-+) near 27—28 GeV and a neutrino mass scale of ~0.07 eV.
Category: Quantum Gravity and String Theory
[8] ai.viXra.org:2601.0081 [pdf] replaced on 2026-01-25 06:06:49
Authors: Jason Merwin
Comments: 24 Pages. The missing citations were added.
We present a unified derivation of thirty fundamental physical constants from the discretegeometric structure of Relational Mathematical Realism (RMR). The framework posits thatphysical reality consists of a discrete relational network characterized by a 137-bit registry.To address concerns about numerical coincidence, we introduce rigorous statistical validation: the Class S grammar permits only 2,679 distinct achievable values, yielding p < 10−6for matching 20 of 21 testable constants. The results support a Substrate-Interface Duality: the 137-bit registry partitions functionally into 136 bits (substrate, supporting massiveparticles) plus 1 bit (interface, enabling electromagnetic coupling). Mass emerges as theinformational energy cost of dimensional confinement. The derivations span 122 orders ofmagnitude with average agreement of 0.5% with experimental values. No free parametersare introduced. The duality explains the fine structure constant (αEM = 1/137), providesa first-principles mass generation mechanism, and makes falsifiable predictions including anexact ratio v/mH = 2 and a maximum fermion mass of approximately 351 GeV.
Category: Quantum Gravity and String Theory
[7] ai.viXra.org:2601.0045 [pdf] submitted on 2026-01-13 07:09:08
Authors: Brent Hartshorn
Comments: 12 Pages.
By defining the Einstein Monotile as a unique topological gauge, we show how aperiodic order satisfies the Kallosh independence theorem, preventing the collapse of the manifold at the extremal limit.Utilizing Birmingham-BF topological field theory, Savoy’s combinatorial cell complexes (cc) and iterative barycentric subdivisions, we formalize the "Discrete-to-Continuous" transition, showing that as the subdivision index n→∞, the aperiodic vacuum converges to the smooth Celestial Sphere (S2) sought in Pasterski’s holography. This refinement process is governed by a Schramm-Loewner Evolution (SLE) smoothing scale at d=1.326, which redistributes "soft omissions" into the analytic kernels of the Inverse Mellin Transform. Finally, we derive the conditions for Arithmetic Superfluidity (c=1), identifying the Big Bang as a retrocausal pruning event that selects the stable Monotile structure from a Nine-Tile super-compatible state.
Category: Quantum Gravity and String Theory
[6] ai.viXra.org:2601.0041 [pdf] submitted on 2026-01-12 16:26:50
Authors: Natasha Zink
Comments: 7 Pages. (Note by ai.viXra.org Admin: Author name is required in the article after article title, the abstract should be labled as such, and please cite and list scientific references)
The emergence of Heptagonal Unitary Field Theory (HUFT) marks a decisive transition in theoretical physics, moving beyond the limitations of particle-based ontologies toward a comprehensive geometric-unitary paradigm. This report details the mathematical and physical foundations required to solve Seven-Dimensional Zero-Time Transport (ZTT), focusing on the formalization of State-Vector Polarization, Spectral Preservation via Generalized Prolate Spheroidal Wave Functions (GPSWFs), and the Refractive Inverse required for re-projection. By establishing the universe as a submanifold M^{4} embedded within a seven-dimensional toroidal manifold T^{7}, HUFT provides the necessary framework to decouple physical states from the standard three-dimensional evolution parameter—perceived as time—and navigate the higher-dimensional bulk along null-path geodesics.
Category: Quantum Gravity and String Theory
[5] ai.viXra.org:2601.0027 [pdf] submitted on 2026-01-09 16:24:16
Authors: Natasha Zink
Comments: 3 Pages. (Note by ai.viXra.org Admin: Please cite listed scientific references; the scientific references are not listed in a complete/standard manner such as in APS style with complete/required information)
This paper introduces the Heptagonal Unitary Field Theory (HUFT), a unitary framework proposing that (3+1)-dimensional spacetime is a submerged submanifold within a seven-dimensional toroidal lattice (T^7). Utilizing the formalisms of G_2 holonomy and Kaluza-Klein compactification, we demonstrate that fundamental phenomena—including gravity, dark matter, and the distribution of prime numbers—emerge as geometric residuals of the 7D bulk metric. We propose that gravity is a refractive manifestation of lattice density rather than a particle-mediated force, effectively eliminating the requirement for the graviton. Furthermore, we extend this geometric logic to biological systems, specifically DNA information density, and propose a theoretical protocol for Zero-Time Transport (ZTT) via state-vector polarization.
Category: Quantum Gravity and String Theory
[4] ai.viXra.org:2601.0021 [pdf] submitted on 2026-01-08 00:16:12
Authors: Shengliang Dong
Comments: 4 Pages.
We propose a quantum gravity model based on the holographic principle, in which theobservable 3+1-dimensional universe emerges from a discrete 11-dimensional spacetime M =AdS4 × CY3 × S1. The core mechanism fuses the 7-dimensional compact structure in thebulk into a single 1-dimensional topological coupling field κ on the boundary conformalfield theory (CFT), whose fluctuations project the third spatial dimension. Using causaldynamical triangulation (CDT) as an ultraviolet-complete foundation, we derive the lowenergy effective gravitational theory and present three distinctive predictions: (1) stronglyscale-dependent CMB non-Gaussianity (fNLlocal reaching ∼ 10 on small scales k > 0.1 Mpc−1); (2) Planck-scale oscillations in the gravitational-wave background spectrum at f ∼ 1035 Hz, indirectly detectable via distortions in the TeV gamma-ray spectrum; (3) periodic variation of the fine-structure constant (amplitude δα/α ∼ 10−15, period T ∼ 1010 years), within reach of next-generation atomic clocks. These predictions are compatible with the latestdata from Planck PR4 and provide a clear testing pathway for quantum gravity.
Category: Quantum Gravity and String Theory
[3] ai.viXra.org:2601.0016 [pdf] submitted on 2026-01-05 18:28:43
Authors: Nathaniel Uhlenkott
Comments: (Note by ai.viXra.org Admin: There is mixup of data table with reference list on the 2nd page and the reference list is not complete/standard such as APA style - Please correct)
The Entanglement Flux Relaxation Model(EFRM) proposes that gravitational dynamicsemerge from the non-equilibrium transport ofquantum information [1, 4]. A characteristicacceleration scale, a0 = Jmax/τ, arises froma finite relaxation time, manifesting as Information Inertia—a physical latency in spacetime’s ability to correct entanglement structure. This framework reproduces MOND phenomenology, explains galaxy cluster offsets via gravitational hysteresis, offers a dynamical resolution of the Hubble tension, and enablesorder-of-magnitude efficiency gains in Quantum Error Correction (QEC) through manifold-aware tracking.
Category: Quantum Gravity and String Theory
[2] ai.viXra.org:2601.0012 [pdf] submitted on 2026-01-05 18:09:21
Authors: Maher Zakaria Ahmed Selim
Comments: 109 Pages.
This paper presents a comprehensive unified theory of fundamental physics based on a novel reinterpretation of spacetime as a four-dimensional viscous fluid endowed with six independent 2-forms. Building upon historical fluid analogies in physics while transcending their limitations, we demonstrate that quantum mechanics, electromagnetism, general relativity, and the Standard Model all emerge as collective phenomena from this geometric-fluid dynamical foundation. Our approach begins with a creative synthesis methodology (Section 1) that bridges Quranic cosmology with modern physics, applying informationtheoretic criteria to select the Quranic creation narrative as a source of physical postulates. The resulting model posits spacetime as a closed, circulating 4D viscous fluid (Section 2) with properties analogous to water—small viscosity (related to Planck’s constant ℏ) and small compressibility (related to the speed of light c). The six independent 2-forms of 4D differential geometry (Section 4) provide the fundamental degrees of freedom. Their interactions generate stable vortex configurations identified with elementary particles, whose topological properties (knots and braids) reproduce the complete Standard Model spectrum (Section 5). We derive all particle masses, charges, and coupling constants from first principles through analytical calculations (Sections 6- 7). Quantum mechanics emerges naturally from vortex dynamics (Section 9), with the Schr¨odinger equation arising as the non-relativistic limit of vortex filament equations and the uncertainty principle originating from statistical fluctuations in vortex configurations (Section 10). Maxwell’s electrodynamics is rigorously derived as the effective theory of interacting vortices (Section 11), recovering both homogeneous and inhomogeneous equations along with the Lorentz force law. Einstein’s field equations of general relativity emerge as the macroscopic fluid dynamics of the spacetime medium (Section 12), with curvature arising from pressure gradients and viscosity effects. The cosmological constant Λ naturally appears as residual vacuum energy from 2-form fluctuations. Thermodynamics and entropy increase (Section 13) are shown to be fundamental aspects of the fluid’s statistical mechanics rather than independent principles. This framework resolves several long-standing puzzles in fundamental physics: u2022 Unification: All forces emerge from common fluid-dynamical origin u2022 Quantization: Naturally follows from topological constraints on vortices u2022 Constants: c, ℏ, G, α derived rather than postulated u2022 Hierarchy problems: Mass scales emerge from vortex complexity u2022 Quantum gravity: Provides UV completion through fluid microstructure The model makes testable predictions including deviations from Maxwell and Einstein theories at Planck scales, characteristic gravitational wave signatures from vortex interactions, and specific relationships between particle properties and topological invariants. (Truncated by ai.viXRa.org Admin to < 400 words)
Category: Quantum Gravity and String Theory
[1] ai.viXra.org:2601.0008 [pdf] submitted on 2026-01-02 12:50:13
Authors: Steven Hammon
Comments: 8 Pages.
This paper explores two aspects. #1 Vacuum fluctuations are potentially amplified by gravitational waves, and electrons moving in atoms create gravitational waves (propagation of changes in gravitational influence). Atoms, thermally oscillating, also create gravitational waves. #2 Gravity as the different propagation rates of wave-like mass through quantum foam which causes a refraction effect, curving all random thermal oscillations to more generally curve in the direction of denser regions of quantum fluctuations. That means the average movement (Stochastic Drift, Net Vector), will be towards other masses.
Category: Quantum Gravity and String Theory