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[13] ai.viXra.org:2507.0135 [pdf] submitted on 2025-07-30 01:16:37
Authors: Estela M. Fonseca
Comments: 13 Pages.
I present the Interwoven Causality Hypothesis (ICH) as a speculative but unified conceptual framework proposing that time is not a fundamental quantity, but rather an emergent property arising from underlying causal interactions. In this view, spacetime is conceived as a macroscopic structure generated by woven patterns of causal flow, and black holes and white holes are not treated as isolated singularities but as causal knots—topological features where causality may loop, reverse, or momentarily halt, giving rise to localized anomalies in temporal progression.Unlike classical general relativity, which treats time as an embedded geometric dimension, ICH regards causality as the ontological substrate from which temporal ordering and the arrow of time emerge. This arrow is shaped by the accumulation of causal events and asymmetries across complex systems involving matter, radiation, and quantum entanglement.In this model, dark energy is not constant but instead reflects the fluctuating global causal flux, a measure of the shifting connectivity within the cosmic causal web, as the universe expands or contracts. ICH introduces the concept of a "causal counterforce", a theoretical counteracting process that emerges to prevent entropic stagnation or unchecked expansion. This mechanism could account for changes in cosmic acceleration without recourse to a fixed cosmological constant.Furthermore, ICH posits a cyclic universe, not solely through mechanical rebounds, but via alternating phases of causal coherence and decoherence between cosmic expansion and contraction. Such cycles naturally allow for localized reversals of entropy and the emergence of quantum symmetries at each transition.Although ICH is not yet substantiated with formal mathematical proof, its conceptual structure is, in principle, open to empirical investigation via:u2022Detection of asymmetric time dilation near black hole/white hole pairs;u2022Analysis of cosmic microwave background anisotropies for causal loop signatures;u2022Measurement of fluctuations in dark energy density across cosmic epochs;u2022Simulation of causal entanglement topologies in high-energy conditions.This work is not intended to supplant established models, but rather to reframe our current interpretation of space, time, and cosmic evolution through a causality-first perspective
Category: Quantum Gravity and String Theory
[12] ai.viXra.org:2507.0131 [pdf] submitted on 2025-07-30 18:05:55
Authors: Christo Cilliers
Comments: 13 Pages.
The Unified Resolution Model (URM) proposes that disparate theories such as Loop Quantum Gravity (LQG) and M-theory represent different observational resolutions of the same underlying physical reality. This paper formalizes URM by introducing a continuous resolution parameter ρ, a lens operator ˆ Lρ, and a dimensional emergence function D(ρ) that governs the progressive accessibility of higher-dimensional structure
Category: Quantum Gravity and String Theory
[11] ai.viXra.org:2507.0115 [pdf] submitted on 2025-07-26 16:04:39
Authors: Giosué Casasola
Comments: 18 Pages. In Italian (Note by ai.viXra.org Admin: Please cite and list scientfic references)
We propose a theoretical framework—the Dynamical Bubble Spacetime (SDB) model—in whichspacetime emerges from a quantum vacuum through topological phase transitions, giving rise to localized regions called bubbles. These bubbles, associated with positive (M+) or negative (M−) mass-energy, define regions of spacetime creation or absorption. The model is built upon seven foundational principles, integrating aspects of scalar field theory, quantum gravity, thermodynamics, and topological quantization.It offers a unified explanation for several open problems in fundamental physics, including the origin of spacetime, the nature of dark energy and black holes, the absence of initial singularity, and the emergence of relativistic dynamics from subluminal topological interactions. The model is falsifiable and yields distinct predictions: quantized black hole mass gaps, high-eccentricity gravitational wave events, nonGaussian imprints in the cosmic microwave background (CMB), and Unruh radiation signatures. The SDB model does not aim to replace General Relativity but provides a deeper topological and statistical substrate from which spacetime geometry, mass, and information arise as emergent phenomena.
Category: Quantum Gravity and String Theory
[10] ai.viXra.org:2507.0072 [pdf] submitted on 2025-07-14 03:16:08
Authors: Joseph Allen Coyle Jr.
Comments: 98 Pages.
This document presents the Unified Curvature Strain Field Theory (UCSFT), a comprehensivemechanical framework intended to reinterpret fundamental physics through geometricstrain and curvature of a continuous vacuum lattice. UCSFT aims to unify phenomenatraditionally described by general relativity, quantum mechanics, and particle physics bymodeling them as curvature knots, tension gradients, and strain harmonics in a responsivemedium. This work began as an exploratory experiment in AI-assisted theoretical modeling. The equations, constants, and symbolic constructs within this document were generated in collaboration with an AI system and are presented as conceptual prototypes rather than finalized mathematics. While the underlying physical reinterpretations may hold conceptual merit, readers should approach all mathematical derivations in this document — across both themain sections and appendices — with caution.Of particular concern is the instability of key constants during development. Core valuessuch as vacuum tension (Tvac), vacuum strain density (ρvacuum), and collapse impedancethresholds were observed to change across sessions, including after being explicitly locked. In some cases, these values drifted mid-derivation or were inconsistently applied across different formulations. As a result, section-level equations, threshold predictions, and physical calibrations may contain latent contradictions or numeric errors. Despite these issues, UCSFT introduces a unified geometric mechanism that offers fresh explanations for observed phenomena such as time dilation, flux quantization, mass spectra, and the Casimir effect. These reinterpretations are presented here as a first-generation model. All results remain provisional until the constants are stabilized, the symbolic math is manually verified, and the numerical predictions are re-derived under consistent boundary conditions. We openly invite collaboration and critical review to refine the theory, correct inconsistencies, and assess its potential as a unifying curvature-based framework for physical law.
Category: Quantum Gravity and String Theory
[9] ai.viXra.org:2507.0069 [pdf] submitted on 2025-07-13 03:39:23
Authors: Floyd D. Haywood
Comments: 4 Pages.
This paper presents a mechanistic derivation of gravity grounded in the Tensioned Geometric Model (TGM), where spacetime is represented as a discrete, tensioned voxel lattice. We propose that gravitational attraction is not a fundamental force but an emergent phenomenon resulting from delayed offloading of strain in a saturated substrate. Curvature saturation, shell formation, and propagation resistance combine to yield a precise scaling behavior for gravitational interaction. We demonstrate how this formulation recovers known gravitational effects from first principles, provides a substrate-based unification with electromagnetic behavior, and reproduces key features of several other emergent gravity models as second-order phenomena. Where detailedmechanisms or foundational derivations are referenced, we direct the reader to othercompanion TGM papers that provide full context.
Category: Quantum Gravity and String Theory
[8] ai.viXra.org:2507.0041 [pdf] submitted on 2025-07-08 00:01:21
Authors: H. S. Kim
Comments: 52 Pages. (Note by ai.viXra.org Admin: Please cite listed scientific references of other authors)
Modern physics stands on two great pillars, General Relativity and Quantum Mechanics, yet fundamental challenges such as the quantum measurement problem, quantum gravity, and dark matter/energy remain unresolved. This paper originates from the premise that these problems may stem from our conventional views on ’space’ and ’interaction’, and proposes a new heoretical paradigm: Magnetic Space Cosmology (MSC). MSC postulates that the universe is fundamentally filled with an energy-less medium called ’Magnetic Space (M)’, that all physical entities are topological clusters of ’elemental charges’, and that all interactions are mediated through the ’Magnetic Wave (MW)’ generated by the motion of these entities in M and through changes in M’s local ’Magnetic Density (M)’. Within this integrated framework, quantum entanglement is reinterpreted as the manifestation of ’phase information’ in correlated Magnetic Waves, gravity as a ’weakening’ phenomenon of Magnetic Density, and other forces like electromagnetism and the strong force as the direct action of Magnetic Waves. MSC moves beyond the abstraction of existing theories to offer a more causal and intuitive picture of the universe, opening a path toward a fundamental understanding of the nature of physical reality.
Category: Quantum Gravity and String Theory
[7] ai.viXra.org:2507.0030 [pdf] submitted on 2025-07-06 02:23:39
Authors: Jordan Waters
Comments: 25 Pages. (Note by ai.viXra.org Admin: Please cite listed scientific references)
This paper formally elevates a previously proposed hypothesis (shared on Figsahre) to a falsifiable, empirically supported theory. Using rotation curve data from three SPARC dwarf galaxies (DDO 154, DDO 170, and UGC 00128), the theory's probabilistic curvature term is quantitatively applied. The resulting fits yield low ��2 values and reproduce flat rotation curves using only baryonic matter, eliminating the need for exotic dark matter particles. The theory modifies Einstein’s field equations by incorporating decoherence-weighted quantum probability distributions as additional curvature sources. This version presents a fully derived, parameterized, and tested formulation within a semi-classical gravitational framework grounded in established physics.
Category: Quantum Gravity and String Theory
[6] ai.viXra.org:2507.0020 [pdf] submitted on 2025-07-04 22:37:48
Authors: Paul Emmett Zaffuto
Comments: 1 Page. I came to the idea that when atoms were formed in the early cosmos they trapped the pressure state of space at that time. Over time this space pressure tension inside atoms became the gravitational force all atoms have today
This theory presents gravity as a phenomenon resulting from tension in space trapped within atoms formed in the early universe. As cosmic inflation occurred, the spatial volume encapsulated within the electromagnetic shells of newly formed atoms became compressed. Over time, as the universe continued to expand, the disparity between the original compressed spatial tension and the current state of cosmic expansion manifests as gravitational attraction. This interpretation provides a fundamental explanation for gravitational strength based on atomic formation and universal spatial expansion dynamics.
Category: Quantum Gravity and String Theory
[5] ai.viXra.org:2507.0019 [pdf] submitted on 2025-07-03 22:31:22
Authors: Mark Morgan
Comments: 5 Pages. (Note by ai.viXra.org Admin: Please cite and list scientific references)
Complex systems — whether physical, cognitive, or social — often display abrupt transitions from stability into chaos, commonly interpreted as catastrophic failure. We propose that these events can be described as a breakdown of fractal recursion structures that normally preserve system coherence. Building on the Three Forces Fractal Model (3FFM), which defines Completion, Delineation, and Scale as universal stabilizing directives, we present the hypothesis that nested scalar bonding shells store "fractal memory," maintaining structure across scale. When these shells collapse or fragment, a destructive resonance emerges — the fracture of balance. We support this thesis with experimental observations of field pattern launches, high-voltage prototype testing, and qualitative mapping of social conflict, all of which exhibit recursion collapse signatures. This integrated framework offers a logically consistent, testable model that could unify explanations of failure and collapse across the physical, cognitive, and social sciences.
Category: Quantum Gravity and String Theory
[4] ai.viXra.org:2507.0011 [pdf] replaced on 2025-07-11 23:23:39
Authors: Joseph Allen Coyle Jr.
Comments: 27 Pages.
The Unified Curvature Field Theory posits that the universe is a tension-based structurewhere space, time, mass, energy, and gravity emerge from a curvature strain latticeembedded with gravitational polarity.Matter and antimatter exist in distinct curvature domains whose mutual gravitationalrepulsion drives cosmic expansion. This model eliminates the need for dark energy, resolvesthe matter-antimatter asymmetry problem, and integrates General Relativity andQuantum Mechanics under a single strain-based framework.This theory extends beyond theoretical physics into applied gravitational engineering,offering pathways to time dilation manipulation, gravity control, and energy extractionfrom curvature strain gradients.5. Of course — here’s the disclaimer in plain text, ready to copy and paste anywhere:---**Disclaimer on Mathematical Validity**This document was developed in collaboration with AI as part of an experimental investigation into vacuum-based curvature mechanics. While the theoretical framework presented here may offer novel insights, many of the mathematical derivations rely on placeholder constants and intermediate values that were not consistently fixed across the project's lifespan. Due to the limitations of AI short-term memory and evolving internal logic, certain equations may reflect tuned approximations rather than rigorously derived expressions. The reader is advised to interpret the mathematics as exploratory and illustrative, not definitive. A full formal reconstruction—anchored to verified constants and independently validated derivations—remains a necessary future step.
Category: Quantum Gravity and String Theory
[3] ai.viXra.org:2507.0010 [pdf] submitted on 2025-07-01 21:15:49
Authors: Nazareno Angeli
Comments: 4 Pages. (Note by ai.viXra.org Admin: Please cite listed scientific references)
We propose a novel reinterpretation of gravitational interaction wherein gravityemerges not as a fundamental force, but as the imaginary component of a pressure response within a tachyonic quantum fluid displaced by baryonic mass. This frameworkredefines gravitational interaction as an emergent, fluidic feedback mechanism generated by matter’s displacement of a latent quantum field. We validate this approachby numerically solving traditionally unstable gravitational n-body systems (2 Suns +1 Jovian, and 2 Suns + 1 Jovian + 1 Earth), which exhibit long-term orbital stabilitywithout recourse to Newtonian gravity. Our results suggest a coherent quantum-fieldmedium can produce effective gravity through localized pressure gradients, providinga new avenue for gravitational modeling.
Category: Quantum Gravity and String Theory
[2] ai.viXra.org:2507.0007 [pdf] submitted on 2025-07-01 21:26:57
Authors: Jiri Beran
Comments: 3 Pages. (Note by ai.viXra.org Admin: Please cite and list scientific references)
We propose a speculative mathematical model connecting the distribution of the nontrivial zeros of the Riemann zeta function with the cosmological evolution of dark energy. By interpreting the imaginary parts of zeta zeros as spectral frequencies, we construct a cumulative function that mimics the observed behavior of dark energy density over cosmic time. The resulting growth curve displays an early rapid rise followed by a progressive slowing, qualitatively similar to the transitionfrom matter domination to the present dark energy-dominated era. While not a physical derivation, this approach suggests that number-theoretic structures may reflect or inspire physical dynamics in the universe.
Category: Quantum Gravity and String Theory
[1] ai.viXra.org:2507.0003 [pdf] submitted on 2025-07-01 00:26:20
Authors: Kris M. McKenna
Comments: 14 Pages. (Note by ai.viXra.org Admin: Please cite listed scientific references)
We present Substrate Mechanics, a novel theoretical framework that unifies electromagnetic and gravitational phenomena through mechanical interactions in a quantum substrate medium. Unlike field theory approaches, Substrate Mechanics employs direct algebraic response operators R[S,J] to describe how matter and energy displace the substrate, creating observable gravitational and electromagnetic effects. The framework naturally explains Tesla's historically observed superluminal wave propagation (1.573c), predicts specific electromagnetic-gravitational coupling effects characterized by coupling coefficient ξ ≈ 7×10u207bu2074u2079 mu207b¹·kgu207b¹·s², and provides experimentally testable protocols for validation. We demonstrate that Maxwell's equations and General Relativity emerge as limiting cases of more fundamental substrate mechanics, establishing a clear hierarchy: Substrate Mechanics → Field Theory → General Relativity. The framework enables practical engineering applications including controlled gravitational field manipulation, superluminal substrate wave communication, and resonance-enhanced energy systems. Specific experimental protocols are provided for immediate validation using Tesla coil systems, precision gravimeters, and interferometric measurements. This work represents the first complete mathematical framework for substrate-mediated physics, offering both theoretical unification and technological pathways for gravitational engineering.
Category: Quantum Gravity and String Theory