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[6] ai.viXra.org:2603.0087 [pdf] submitted on 2026-03-23 01:15:16
Authors: Jon Caldwell
Comments: 34 pages. AI-assisted development of a superfluid vacuum model with zero free parameters. All physics verified by the author. Contemporaneous with Zenodo preprint DOI: 10.5281/zenodo.19169701
A single quantum superfluid condensate with no free parameters is proposed as the physical vacuum. The dimensionless over-capacity mismatch ε is not a free in put; it is derived from the CW—BCS self-consistency condition (Sec. 2.5.5), ε = k2 max,C/(2π2mln(kmax,C/kmax,IR)) = 0.1452; the numerical approximation ε ≈ 0.15 (accurate to 3%) coincides with the two-loop value for the derived coefficient c2 = −6(from the O(2) two-loop beta function), so all numerical results already operate at twoloop precision. Two competing nonlinear terms—quartic and logarithmic—produce twoindependent coherence scales: an IR scale suppressing vacuum energy (kIR = 8meV) anda UV scale regulating the Higgs self-energy (kUV ≈ 348GeV). The condensate effectivemass is derived with no free parameters from the logarithmic Gross—Pitaevskii phonondispersion and the GW170817 constraint cs → c, giving m ≈ 40meV/c2. The hierarchy ratio γ/(gρ0) = 5.77 × 10−8 is expressed as a closed formula in observational inputs,shown to be technically natural by ’t Hooft’s criterion, and shown to be structurallygenerated by one-loop Coleman—Weinberg corrections. The ratio kmax,C/kmax,IR = 90is derived by dimensional transmutation: the CW—BCS self-consistency condition determines λrel = 4/ln(kmax,C/kmax,IR) = 0.8895, and the gap equation kmax,C/kmax,IR =exp(Npair/λrel) with Npair = 4 reproduces the observed ratio exactly at one loop. Nofree parameter is introduced. Quantitative fits to SPARC rotation curves (UGC 128:χ2/dof = 1.00; NGC 3198: χ2/dof = 2.25) with ε fixed determine the vacuum referencedensity ρ0 ≈ 2.56×1032kgm−3 and the observer correction β = 1.60×10−48 from a singlefit, with 0.7% consistency between the two galaxies. The emergent gravitational metricsatisfies γPPN = +1 (Cassini bound satisfied; residual δγ ∼ 10−24). The CMB first peakℓ1 = 220 is reproduced as a consistency statement: the condensate is pressureless (w → 0) at CMB scales and encodes the same matter/energy content as ΛCDM. The sharpestnear-term test is an oscillatory Casimir force deviation (amplitude ∼ 0.18% at d = 1µm;period ℓwall = 0.275µm) with a material-dependent phase shift of ∆ϕAu→Ag ≈ 0.07rad(3nm plate-separation offset) that is parameter-free.
Category: Quantum Gravity and String Theory
[5] ai.viXra.org:2603.0061 [pdf] submitted on 2026-03-14 16:54:30
Authors: Bhasanpal Thiru
Comments: 3 Pages.
Causal Lattice Elastodynamics (GVS) introduces a discrete foundational framework replacing thecontinuous spacetime manifold with a shear-thickening, Poisson-sprinkled Causal Set. By modeling fundamental particles as localized topological embeddings, GVS analytically derives key Standard Model parameters strictly from 3D simplicial coordination geometry without arbitrary parameterization or fine-tuning. This paper formalizes the Five Fundamental Laws of GVS, uniting macroscopic General Relativity with microscopic quantum elastodynamics via the Holographic Surface-Strain Law. We present the unpatched, first-principle derivations of seven fundamental constants, demonstrating that empirical deviations from bare geometric limits are the exact physical measurements of vacuum polarization. A rigorous, pan-scalar falsifiability matrix is provided to test the framework against Ultra-High-Energy Cosmic Rays (UHECR), wide binary stellar kinematics, and Belle II constraints.
Category: Quantum Gravity and String Theory
[4] ai.viXra.org:2603.0053 [pdf] replaced on 2026-03-13 17:30:03
Authors: Ricardo J. Miralles
Comments: 4 Pages. In Spanish (Note by ai.viXra.org Admin: This submission needs an abstract in the article and cites listed scientific refererences)
We propose quantization of dipolar torsion T_dip in the FCD-RBv3 model, a 5D framework where fermion-antifermion pairs in a collapsed toroidal bulk emerge discrete masses m_n ∝ √n, modified gravity (d=0.002), and helical electromagnetism, eliminating DM/DE/primitive gluons...
Category: Quantum Gravity and String Theory
[3] ai.viXra.org:2603.0035 [pdf] submitted on 2026-03-08 17:27:27
Authors: Adam T. Hawkins
Comments: 18 Pages. Besides this force unifying paper there is a companion paper at the cosmic scale
This work presents a unified mechanistic framework for physics based on three first-principles assumptions:(1) gravity propagates at the causal speed c,(2) time flows in one direction (retarded propagation only), and(3) every massive particle continuously emits fundamental gravitational wave shells whose time-averaged superposition constitutes gravity.At the quantum scale there is a limit below the proton mass where space time shells are not emitted at the speed of light, and the energy of mass is conserved in 3d via photons, gluons or magnetic fields between quantum pops.
Category: Quantum Gravity and String Theory
[2] ai.viXra.org:2603.0025 [pdf] submitted on 2026-03-05 08:04:41
Authors: Carl Andrew Brannen
Comments: 13 Pages. Submission for the annual Gravitation Essay Contest, 2026
We propose a reformulation of relativistic physics based on complex time and discrete structure. Relativistic kinematics is derived as the infrared limit of a single cubic lattice with local unitary dynamics, where Lorentz symmetry emerges as an accidental long-wavelength symmetry. The same lattice, governed by full octahedral (Oh) symmetry, organizes fermionic degrees of freedom through representation structure rather than continuum assumptions. Gravitation is then reconsidered by reorganizing the physical degrees of freedom of general relativity on a flat background, representing gravitational effects through modified propagation dynamics without adding new dynamical content. The framework preserves the verified predictions of special and general relativity while suggesting that spacetime symmetry and particle structure arise from a common discrete foundation.
Category: Quantum Gravity and String Theory
[1] ai.viXra.org:2603.0006 [pdf] submitted on 2026-03-02 16:59:56
Authors: Shun Yao, Yunsheng Shu, Zhiyong Yao
Comments: 75 Pages. (Note by ai.viXra.org Admin: Please cite and listed scientific references) In Chinese; license: CC BY 4.0
This paper proposes a realist interpretive framework for quantum phenomena based onstring theory —the Lamp Bead-Glow Model (LBM). The model regards quantum particles as composites of "lamp beads" (high-frequency localized vibrations of strings) and "glow" (extended physical fields excited by strings), providing a unified physical explanation for phenomena such as wave-particle duality, double-slit interference, the Aharonov-Bohm effect, quantum tunneling, and quantum entanglement. On this basis, the concept of a "micro-gravitational domain" is put forward —each atom generates a micro-scale spacetime curvature unit due to its rest mass, and the macroscopic gravitational field is an "emergent gradient matter field" formed by the superposition of a vast number of micro-gravitational domains. This paperargues that the spacetime curvature in general relativity can be regarded as a geometricizedequivalent description of this emergent field. The model presents testable predictions, includingthe neutral-atom Aharonov-Bohm effect and a comparative experiment on electrons with equalkinetic energy from different sources, and also discusses the theoretical limitations of the current framework and future research directions in an open and honest manner. The purpose of thispaper is to provide a conceptual basis for academic discussion rather than a final conclusion.
Category: Quantum Gravity and String Theory