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[5] ai.viXra.org:2509.0069 [pdf] submitted on 2025-09-26 22:47:27
Authors: Daniel S. Zachary
Comments: 17 Pages.
We propose a theoretical framework in which spacetime curvature and localized energy density emerge from modulations of vacuum entanglement structure. Building upon quantum energy teleportation (QET) protocols and the entanglement-geometry correspondence, we introduce an operational mechanism by which local measurements can induce energy redistribution across spacelike-separated regions. This mechanism does not involve classical signal propagation and remains consistent with causality and quantum energy inequalities. We formalize this hypothesis through an effective entanglement stress-energy tensor and derive its implications for geometry, energy flow, and negative energy densities. Experimental signatures include curvature shifts detectable by atom interferometers, clock desynchronization in optical networks, and vacuum pressure changes in Casimir systems. We identify feasible experimental platforms and outline protocols to test this proposal within current or near-future precision measurement technologies.
Category: Quantum Gravity and String Theory
[4] ai.viXra.org:2509.0057 [pdf] replaced on 2026-01-30 16:39:05
Authors: Allan Plankhart
Comments: 10 Pages. (Note by ai.viXra.org Admin: For the last time, please cite listed scientific references)
We present a complete theoretical framework for emergent gravity based on a geometric-probability coupling between quantum wavefunctions and space-time curvature. The theory posits that gravitational forces arise from a non-local potential V = mc2(⟨T ⟩Ψ/T0)1/3, where ⟨T ⟩Ψ is the wavefunction-averagedtidal curvature scalar. We provide the full covariant formulation derived froma diffeomorphism-invariant effective action, demonstrate recovery of geodesic motion for point particles, and derive the stress-energy tensor for backreaction calculations. The framework yields a parameter-free prediction: gravitational acceleration is suppressed for delocalized quantum states by a universal function η(r/σ). For a Bose-Einstein condensate with coherence width σ = 1 µm at distance r = σ from a milligram source mass, the predictedanomaly is ∆a ≈ 4.5 × 10−5 m s−2, two orders of magnitude above current atom-interferometry sensitivities. The theory is causal, respects the equivalence principle in the classical limit, and provides testable signatures in bothlaboratory and astrophysical contexts.
Category: Quantum Gravity and String Theory
[3] ai.viXra.org:2509.0046 [pdf] submitted on 2025-09-17 15:12:48
Authors: Justin Howard
Comments: 3 Pages. (Note by ai.viXra.org Admin: Please refrain from making frequent/incessant and careless submissions - Proof-read texts, format etc carefully to make sure that the article is in a correct and scholarly manner before making the submission)
We report four dimensionless quantities derived from the latest cosmological observations (PDG 2024). These are not theoretical predictions. They are direct measurements extracted from existing data. None are predicted by the Standard Model of particle physics or general relativity. All require new physics for explanation. 1. Vacuum entropy suppression factor: f_QG =(ρ^obs_Λ)/(ρ^naive_Λ) = 0.876 ± 0.032;2. Entanglement mass fraction: F = π·Ω_MM = 0.835 ± 0.022; 3. Cosmic entanglement growth rate: ˙S_H = 5.22 × 1082 bits/s; 4. Volume-to-entropy ratio: V_obs/(S_H/k_B) = (3.0 ± 0.5) × 10^(−42_m^3. These constants are numerically precise and mutually independent. No known physical theory relates them. We offer no interpretation. We present only the data.
Category: Quantum Gravity and String Theory
[2] ai.viXra.org:2509.0034 [pdf] submitted on 2025-09-13 21:45:28
Authors: Andrew Bull
Comments: 7 Pages.
This thesis presents the Big Block Theory (BBT) as a speculative phenomenological framework that addresses selected open problems in particle physics—including the hierarchy problem, dark-matter phenomena, and aspects of quantum entanglement—through extra-dimensional models testable at high-energy colliders. Motivated byexperimental searches at CERN’s Large Hadron Collider (LHC) and by Kaluza—Klein extensions of general relativity, we propose that physical reality comprises a dense, multidimensional "big block" in which many quantum states coexist. Our perceived universe corresponds to a specific "frequency slice" of this structure. Public LHC Run 2 results and preliminary Run 3 performance reports place quantitative bounds on trans-dimensional effects such as missing-energy signatures from graviton escape and microscopic black-hole production thresholds. A unifiedenergy-accounting formalism is introduced, linking apparent missing energy in ���� collisions to energy flux into extra-dimensional blocks. While no anomalous signatures have been definitively observed, current limits are consistent with—and constrain—BBT parameter space. The framework suggests qualitative avenues toward understanding quantum correlations across spacelike separations and the apparent weakness of gravity.
Category: Quantum Gravity and String Theory
[1] ai.viXra.org:2509.0010 [pdf] submitted on 2025-09-05 17:24:10
Authors: John W. Hixon Jr.
Comments: 26 Pages. (Note by ai.viXra.org Admin: The math equations are almost unintelligible - Please use LaTeX and convert the latter to pdf)
We present the first complete quantum theory of gravity that successfully unifies generalrelativity with quantum mechanics through background-independent geometric quantization.Starting from an effective field theory of cumulative spacetime energy, we promote the metric tensor to a quantum operator and derive the complete quantum Einstein equations. The theory naturally explains galaxy rotation curves (3.5% error), passes all solar system tests, provides a mechanism for cosmic acceleration, and resolves the black hole information paradox through quantum geometric entanglement. Classical spacetime emerges naturally above a coherence scale Lu2080 ≈ 10¹³ m, while quantum geometric effects dominate below this scale. The framework makes specific experimental predictions including modified Casimir effects, gravitational wave propagation changes, and quantum decoherence signatures in curved spacetime. This work completes the century-long quest for quantum gravity and provides a foundation for unified field theory.
Category: Quantum Gravity and String Theory