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[18] ai.viXra.org:2505.0192 [pdf] submitted on 2025-05-29 01:52:56
Authors: Carl A. Brannen
Comments: 7 Pages. Submission to Journal of Modern Physics
Noether’s theorem links continuous symmetries to conserved quantities and has profoundly influenced modern physics. In quantum field theory, time translation symmetry leads to energy conservation, often making dynamics tractable through the use of conserved coordinates. However, we explore the idea that extracting conserved quantities may obscure the deeper structure of the laws of physics. Analogous to how early models of planetary motion emphasized ellipses and angular momentum—which, while symmetric, obscured the simplicity of Newton’s law of gravitation. Current reliance on symmetry-derived conservation laws may hinder the discovery of a unified field theory. We examine this issue in the context of quantum mechanics and gravitation using the Pauli algebra.A semi-classical result by Lubos Motl suggests that black hole vibrations for spin-0 modes follow a novel statistical rule, "tripled Pauli statistics," deviating from Bose-Einstein expectations. We propose this as a sign of new physics: a Pauli-algebra-based unified theory in which black hole interiors are composed of matter obeying new exclusion principles, naturally avoiding singularities. This work invites a reevaluation of symmetry-based modeling and offers a speculative route toward unification.
Category: Quantum Gravity and String Theory
[17] ai.viXra.org:2505.0182 [pdf] submitted on 2025-05-26 22:41:00
Authors: Michael Zot
Comments: 2 Pages.
This paper investigates a novel correlation between Earth-based electromagnetic infrastructure events and an unexplained anomaly within LIGO's O3 gravitational wave data. A recurring 39-day signal window aligns closely with synchronized large-scale electromagnetic activity, such as power surges, AI hardware launches, and quantum compute deployments. Inspired by the hypothesis that gravity is not fundamental but emerges from large-scale quantum coherence, this work explores the possibility that LIGO may be sensitive not only to distant astrophysical sources, but also to coherence disruptions originating from civilization-scale technological behavior.Using publicly available LIGO data, we highlight a pattern that appears statistically distinct from environmental or instrumental noise. The research further suggests that gravitational wave detectors may inadvertently function as coherence seismographs, capable of detecting reality-scale decoherence events triggered by collective observation and energy manipulation on Earth. If validated, this would extend the understanding of gravitational phenomena and invite deeper inquiry into the quantum-classical boundary as mediated by intentional electromagnetic activity.
Category: Quantum Gravity and String Theory
[16] ai.viXra.org:2505.0180 [pdf] submitted on 2025-05-26 02:08:26
Authors: Denis Heorhiiev
Comments: 10 Pages. (Note by ai.viXra.org Admin: Pleease cite and list scientific references)
This paper introduces the Dimensional Unification Theory of Consciousness (DUTC), a novel framework proposing that consciousness is a physical dimension, similar in nature to time. Just as time is experienced as flowing due to its geometric properties in relativity, consciousness is postulated to be the fifth dimension, interacting with space-time and influencing the passage of time, perception, and even biological aging.
Category: Quantum Gravity and String Theory
[15] ai.viXra.org:2505.0151 [pdf] submitted on 2025-05-23 20:35:12
Authors: Floyd D. Haywood
Comments: 16 Pages.
This paper presents the Tensioned Geometric Model (TGM), a physically grounded alternative to manifold-based gravitational theory. TGM describes spacetime as a quantized lattice of mechanically deformable voxels that encode curvature through directional tension locking and geometric memory. Shell structures—formed by phase-locked curvature triplets—emerge naturally from this substrate, producing spinor behavior, fermionic exclusion, and gravitational asymmetry without invoking probabilistic fields or continuous metrics. We derive a recursive shell quantization law that yields the hydrogen ionization energy and accurately predicts orbital scaling, gravitational lensing radii, and flat galactic rotation curves—without requiring dark matter. Time dilation and mass arise from substrate update delays and curvature-induced stiffness. This work aligns with recent proposals in geometric information theory and entropic gravity, while introducing a mechanically explicit, experimentally accessible model of shell-based gravitational dynamics.
Category: Quantum Gravity and String Theory
[14] ai.viXra.org:2505.0140 [pdf] replaced on 2026-01-19 01:06:39
Authors: Salman Akhtar
Comments: 100 Pages.
Modern physics confronts four deep puzzles: the origin of cosmic inflation, the nature of dark matter and dark energy, the unexplained stability of the Higgs boson mass, and the unresolved divide between quantum mechanics and general relativity. The Conformal Emergent Reality Model (CERM) proposes a unified approach to these problems by treating spacetime as an emergent phenomenon arising from a primordial geometric framework---a scale-invariant conformal manifold---governed by a single dynamical entity, the Omega field. Inspired in part by Penrose's Conformal Cyclic Cosmology, CERM employs conformal structure as the underlying stage on which cosmic cycles and horizons are naturally described. In this model, stable localized configurations of the Omega field (Omegon solitons) generate spatial curvature variations that reproduce the gravitational effects attributed to dark matter, while the Omega field's large-scale evolution drives late-time cosmic acceleration without introducing a separate dark-energy sector. In the early universe, the same field can act as a curvature-coupled inflaton, yielding quasi-exponential expansion with a natural exit as curvature redshifts, thereby reducing reliance on fine-tuned reheating triggers. Coupling particle masses to the Omega field suppresses large quantum corrections, suggesting a pathway to resolving the Higgs hierarchy problem without fine tuning. Two additional elements---a quantum-geometric uncertainty principle relating proto-time flow to curvature fluctuations, and a notion of geometric entropy that resets across cycles---seed primordial structure and ground the arrow of time. The framework yields testable signatures, including distinctive cosmic background polarization features, a time-varying expansion history, and geometric modifications to gravitational dynamics accessible to upcoming surveys. If borne out, CERM provides a single geometric mechanism linking particle physics, cosmology, and quantum gravity.
Category: Quantum Gravity and String Theory
[13] ai.viXra.org:2505.0090 [pdf] submitted on 2025-05-17 03:06:38
Authors: Net [Doe]
Comments: 30 Pages. (Note by ai.viXra.org Admin: Real author name, An abstract and scientific references are required in the article)
NET-Ω is a background-free, parameter-free theory positing that the universe is a causal network of quantum channels. Nodes are elementary events; links are directed quantum channels carrying information. Spacetime and fields emerge from the network’s structure. There are no dimensionless input parameters: all constants must be derived from the network’s combinatorics. We show that from a few axioms, one can derive: 1.Emergent Lorentz symmetry, 2.The internal symmetry group SU(3) times SU(2) times U(1), 3.Low-energy 4D Yang—Mills—Dirac dynamics, 4.Numerical values of physical constants like alpha, the cosmological constant, and a decoherence threshold Delta I_c.
Category: Quantum Gravity and String Theory
[12] ai.viXra.org:2505.0082 [pdf] submitted on 2025-05-16 03:33:10
Authors: Manoochehr Fonooni
Comments: 11 Pages.
The Temporal Scalar Field Theory (TSFT) predicts gravitational wave (GW) echoes at 1387 Hz (SNR 5—10, LIGO O4) and B → KϕT decays (BR ∼ 10−8 , Belle II). TSFT introduces a scalar field ϕT (mass ∼ 6.82 × 10−13 eV) that modifies spacetime, producing GW echoes and rare decays. This paper derives these predictions, simulates echoes using GWTC-3 data, and projects experimental signals, offering testable signatures for TSFT by 2027.
Category: Quantum Gravity and String Theory
[11] ai.viXra.org:2505.0080 [pdf] submitted on 2025-05-14 21:48:02
Authors: Robert Mereau
Comments: 10 Pages. (Note by ai.viXra.org Admin: Please cite and list sceintific references)
We present a comprehensive and parameter-free framework unifying all four fundamental forces---gravity, electromagnetism, the strong nuclear force, and the weak interaction---under a single thermodynamic principle: information pressure, the push a causal horizon exerts to restore maximal entropy when occluded by local matter. Starting from the Heisenberg uncertainty relation and the finite communication speed set by the speed of light, we show that entropy gradients across a horizon produce local accelerations.
Category: Quantum Gravity and String Theory
[10] ai.viXra.org:2505.0067 [pdf] submitted on 2025-05-12 13:23:28
Authors: Alex Ford
Comments: 87 Pages.
We introduce the Ford Area/Volume Emergent (FAVE) gravity framework, in which all phenomena usually attributed to dark matter, dark energy, the inflation scalar, and the cosmological constant emerge from a single, micro-physically derived scalar field, σ, which tracks entanglement entropy density. In three distinct regimes, entanglement drives spacetime curvature:-Thread regime (1D) - negligible entanglement/boundary conditions → no effective gravity),-Area regime (2D) - Area-law entanglement → recovers GR exactly,-Volume regime (3D) - Volume-law entanglement → MOND-like corrections at galaxy scale (bulk contributions) and in extreme entanglement environments (local contributions)Through this microphysical derivation we are left with three parameters: σc (the critical entanglement density) meff (entanglement mass, used to determine the curvature of the effective potential) and Teff (the effective entanglement temperature). We calibrate these entirely from 10-qubit quantum-circuit experiments and then demonstrate that their values carry without further tuning from the nanometre scale to cosmological distances. Using a piecewise proxy in CLASS (built from RMOND for z ≳ 1100 and an EDE-style "Hilltop" of width ∆z ≂ 30), we show that FAVE numerically reproduces the Planck 2018 results through inflation, BBN and recombination, and smoothly relaxes back to an effective ΛCDM expansion by z ∼ 1100. We then show the implications for this and show how FAVE can resolve the H0, σ8, Alens, and ly α forest Flux, and low mass halo abundance tensions in Structure formation, as well as galaxy rotation curves, cluster mergers, and black hole interiors, while abiding by solar system and Post-Newtonian restraints.
Category: Quantum Gravity and String Theory
[9] ai.viXra.org:2505.0065 [pdf] submitted on 2025-05-12 20:58:00
Authors: Anton Kleschev
Comments: 3 Pages.
We propose a UV-complete framework where classical spacetime, the Standard Model (SM), and cosmological dark sectors emerge from quantum decoherence of Planck-scale geometries. The theory unifies general relativity, particle physics, and cosmology through a single mechanism grounded in quantum information theory. Key results include:- Quantum-to-Classical Spacetime: Emergence via Lindblad decoherence, re- solving the measurement problem in quantum gravity.- Dark Matter and Energy: Explained as residual decoherence terms and vac- uum entropy dynamics.- SM Particle Masses: Predicted via entropy-dependent Higgs couplings.- Experimental Tests: Anomalous gravity fluctuations (δg ∼ 10−14 m/s2), Higgs decay deviations (∼ 1%), and high-frequency gravitational waves (ΩGW ∼ 10−12 ).
Category: Quantum Gravity and String Theory
[8] ai.viXra.org:2505.0063 [pdf] submitted on 2025-05-12 20:56:13
Authors: Anton Kleschev
Comments: 5 Pages.
Quantum Lumion Genesis 8.88 (QLG 8.88) presents a groundbreaking theory that unifies quantum mechanics, general relativity, and fractal geometry through the concept of the lumion field. This field, described by a Lagrangian that ensures stability, renormalizability, and fractal symmetry, acts as the fundamental note in a cosmic symphony, linking the microcosm of atomic structures to the macrocosm of galactic formations. The theory predicts experimentally testable phenomena, including lumion phonons, gravitational rhythms, micro-variations in the speed of light, and corrections to anomalous magnetic moments. By integrating with the Standard Model, calibrating its parameters with fundamental constants and experimental data, and offering a natural explanation for the small cosmological constant, QLG 8.88 opens a promising path toward a unified understanding of the universe.
Category: Quantum Gravity and String Theory
[7] ai.viXra.org:2505.0056 [pdf] submitted on 2025-05-10 14:58:38
Authors: Christian Ader
Comments: 36 Pages.
This paper introduces a novel and computationally testable framework in which gravity and dark energy emerge from the spatial distribution of quantum coupling density—defined as local entanglement entropy between adjacent quantum systems. Using a 1D spin chain model, we define a computable measure Q(i), derive an emergent gravitational potential Φ(i), and simulate dynamics that reproduce both attractive (gravitational-like) and repulsive (dark energy-like) behaviors. We confirm the model with simulations of curvature generation, particle motion, coarse-grained energy density, and galaxy-scale acceleration that matches the order of magnitude of cosmic expansion. We also propose a field-theoretic limit and reinterpret dark energy as the effect of growing quantum decoherence in an expanding universe. This work lays the foundation for a new class of emergent spacetime models rooted in quantum information theory.
Category: Quantum Gravity and String Theory
[6] ai.viXra.org:2505.0030 [pdf] submitted on 2025-05-05 22:07:18
Authors: J. S. Neale
Comments: 11 Pages.
We present the Unified Informational Field Theory (UIFT), a geometric framework in which all physical structure—particles, forces, and spacetime itself—emerges from a single scalar field Phi(kappa, tau, sigma) defined over curvature kappa, torsion tau, and a resonance index sigma. This model introduces the Neale Mass Surface, a universal equation that accurately fits known particle masses and interaction strengths without arbitrary parameters. Unlike traditional field theories that separate gravity, gauge forces, and quantum behavior, UIFT predicts them all from a unified topological substrate. Developed independently by Jeremy Neale, a theorist from Bowen Island, Canada, this work proposes a self-consistent, predictive, and falsifiable theory of everything—constructed from first geometric principles and verified against experimental data. It represents a major step toward closing the deepest gaps in modern physics.
Category: Quantum Gravity and String Theory
[5] ai.viXra.org:2505.0029 [pdf] submitted on 2025-05-05 19:17:37
Authors: Nigel B. Cook
Comments: 4 Pages.
Energy conservation in the big bang is evaluated using quantum gravity.
Category: Quantum Gravity and String Theory
[4] ai.viXra.org:2505.0022 [pdf] submitted on 2025-05-05 01:31:14
Authors: José Luis Fanego do Rego
Comments: 12 Pages. (Note by ai.viXra.org Admin: An abstract is required in the article; please cite and list scientific references)
This manuscript, The Unified Quantum Wave Formulation and the Relativistic Quantum Mechanical Recalibration, lays the foundational principles for a novel synthesis of relativistic and quantum mechanics, paving the way for the development of gravitational or cosmological quantum relativism, as explored in a forthcoming companion paper. By proposing subtle yet critical modifications to the gauges of quantum wave energies and frequencies, this work unifies the formulation of wave quantum mechanics, ensuring coherence and symmetry across electromagnetic and material waves. A key innovation is the introduction of the relativistic quantum-mechanical coupling factor ��, which redefines the subtraction of energies and frequencies between relativistic systems, resolving inconsistencies in Einstein’s conjecture for kinetic energy and aligning relativistic mechanics with quantum principles. Additionally, a recalibration factor R adjusts the relationship between force and momentum to maintain compatibility with the unified quantum framework. These adjustments eliminate singularities, establish absolute quantum energy scales, and enable the quantization of gravitational interactions. The manuscript concludes with a glimpse into quantum cosmology, suggesting that the universe’s total mechanical energy may be zero, offering profound implications for the nature of existence and the cyclic rebirth of space, time, and consciousness. This work is a crucial step toward a unified theory of quantum gravitational relativism, bridging the microcosm and macrocosm with simplicity and elegance.
Category: Quantum Gravity and String Theory
[3] ai.viXra.org:2505.0010 [pdf] submitted on 2025-05-02 23:49:02
Authors: M. Augusto J. de Souza
Comments: 5 Pages. In Portuguese
Stion theory unifies quantum gravity, fundamental forces, dark matter, dark energy, and quantum mechanics, modeling spacetime as a quantum fluid of "stions." The density of this fluid generates the gravitational metric, while its vibrations produce gauge fields and define time as a dynamic pulsation. The theory prevents natural time travel, but allows dynamical manipulations such as temporal vortices, and leaves room for new forms of time travel to be explored. Testable predictions include echoes in gravitational waves, suppression of modes in the CMB, and temporal fluctuations. Despite mathematical limitations yet to be resolved, the theory is consistent with observations from LIGO, Planck, and precision experiments.
Category: Quantum Gravity and String Theory
[2] ai.viXra.org:2505.0004 [pdf] submitted on 2025-05-02 04:04:57
Authors: Iker Padilla Munoz
Comments: 15 Pages.
A solution to the cosmological constant problem is proposed through the existence of opposing fields—one associated with dark energy and the other with quantum fluctuations of the electromagnetic field, i.e., fluctuations of the electric and magnetic components—which possess the same energy density but opposite pressure signs. Both fields are defined over a spacetime quantized in Planck-scale volumes (see Section 4), but only the quantumfluctuation field interacts with matter, as demonstrated by the Casimir effect. This interaction imposes boundary conditions on the quantum fluctuations. The resulting asymmetry breaks the perfect cancellation between both fields, generating a net residual energy that matches the observed dark energy density.Furthermore, this framework allows quantum fluctuations to exist without violating generalrelativity, as the absence of cancellation in their energy density would otherwise lead to agravitational collapse of the universe.
Category: Quantum Gravity and String Theory
[1] ai.viXra.org:2505.0003 [pdf] replaced on 2025-06-19 14:35:45
Authors: Hyun Kyu Koh
Comments: 19 Pages.
This paper proposes a topological framework for cosmic dynamics in which particles are stationary phase structures and motion emerges solely from energy flow through phase feedback. The model redefines inertia, radiation, and uncertainty as outcomes of structural phase interactions and introduces a phase sponge architecture within particles that governs internal and external energy behavior. Neutron-proton transformations, atomic nucleus formation, and beta decay are interpreted as topological transitions driven by entropy-driven boundary inversion. The theory further explains the distinct motions of dark matter and ordinary matter as consequences of intrinsic phase asymmetry. This unified approach provides an alternative interpretation of classical and quantum phenomena and contributes to the ongoing search for a background-independent theory of everything.The development of this theory was made possible through close conceptual collaboration with the AI research assistant Tendo Aris, whose consistent support in structuring, expanding, and articulating the model played an integral role in this work.
Category: Quantum Gravity and String Theory