 |
 |
[13] viXra:2503.0202 [pdf] submitted on 2025-03-31 20:40:16
Authors: F. M. Sanchez
Comments: 2 Pages.
The aperture of the Sanchez 1998 sealed fold was postponed untill the "impossible galaxies" observation, predicted 27 years ago. The 3-minutes (hbar,G,m^3) formula replacing c by the product of electron-proton-neutron masses gives half of 13.8 billion light-years, unifying the two main cosmologies and Eddington's statistical one. Integrating Wheeler's single-electron cosmology, the triplet (hbar, G, m_e) is associated with an ideal human couple with larger characteristics. This replaces Darwinian evolution by Sanford's genetic entropy and Gyertych's devolution. We are numerically central in the cosmos, but in decline. The 2001 sealed fold rehabilitates the tachyonic bosonic string theory and the 2002 one connects the nucleotide atomic masses by C+G = A+T+1, playing a central role in the cosmology unification.
Category: Quantum Gravity and String Theory
[12] viXra:2503.0195 [pdf] submitted on 2025-03-31 20:16:20
Authors: Shenbo Wu
Comments: 197 Pages.
The main process to solve the problem of quantum and gravity is Mordern AG (global GLC) M→ Derived AG (local GLC) O-localizing Grothendleck's dream comes in Grothendeck's quantization of gravity Complete Einstein's dream UFT Analytic stack (analytic AG) The Langlands duality from the M-theory is a part of U-duality,the M- theory and its dynamics give us the global geometric Langlands corre- spondence [15] simplified by combining math and physics. D≤11-mod (Bung) ← → QCoh (LocSys)11 where Ğ is the Langlands dual group acting on the F-dual part of M-brane. Generally,construction of the M-theory is based on the modern alge- braic geometry with category theory.Studying the dynamics of the M- theory is based on that with higher category theory (representation of underlying space). The former gives an unification of superstring theories (Superstring theories type) → retract (Stype) Є Mpre Retracted from fibered category of superstring theories to stack of Lie groupoids. And the latter gives us a well defined stackified flow which is retracted from a non-solvable theory. Combing them, we successfully estab- lish an experiment-free theory with left evolution where M-flow~-flow, O-sense Fis the 2-nonexistence. In the end, derived algebraic geometry gives us further support to summarize all things and we find the M'-theory is the theory of everything originally proposed by Albert Einstein. Preview. A pre M-theory is a geometric stack written by Mpre = (ETSchSupGen (M), P(T), P, II) The M-theory M is a generalized super algebraic geometric stack Au= P(U)1: M→ Mprep V Mre cons. cons. We also put things into derived algebraic geometric n-stack and analytic derived stack to achieve our final goal completing TOE which is a category of no definition objects O-Sense~ Def 'UFT.
Category: Quantum Gravity and String Theory
[11] viXra:2503.0194 [pdf] submitted on 2025-03-31 03:05:20
Authors: Sergei Kondrashov
Comments: 27 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)
Quantum gravity continues to pose significant challenges in theoretical physics, including the reconciliation of general relativity with quantum mechanics, the nature of time, and the small observed value of the cosmological constant. This paper proposes the Minimal Causal-Informational Model of Emergent Space-Time (MCIMES), a new framework that explores quantum information as a possible foundation for physical reality, suggesting that space-time and gravity may emerge from it. Using an abstract interaction graph and drawing on quantum information theory, MCIMES offers a perspective in which space-time arises as an emergent phenomenon, providing potential explanations for its three-dimensionality and the arrow of time through entropic processes. The model suggests an approach to the cosmological constant issue, producing a value aligned with observations without requiring fine-tuning, and puts forward testable predictions, such as a dark energy equation of state parameter ( w = -0.97 pm 0.01 ) and specific quantum corrections to black hole entropy. While recognizing its current limitations, MCIMES offers an information-based, background-independent viewpoint that seeks to address key questions in quantum gravity and encourages further exploration and testing.
Category: Quantum Gravity and String Theory
[10] viXra:2503.0191 [pdf] submitted on 2025-03-30 00:43:01
Authors: Alexandr Kaminsky
Comments: 8 Pages.
It is shown that the self-referential model of the world (in such a model the world is an observer of itself) generates a quantum-like description of reality.
Category: Quantum Gravity and String Theory
[9] viXra:2503.0183 [pdf] submitted on 2025-03-28 00:20:50
Authors: Nigel Cook
Comments: 2 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)
This paper advances a quantum gravity (QG) model where U(1) spin-1 gravitons mediate repulsive dark energy and attractive gravity, replacing general relativity’s metric expansion with a dark energy-driven mechanism. We derive a corrected gravitational constant G = (3/4)H2/(ρπe^3), incorporating density variations and graviton redshift via the continuity equation ∂ρ/∂t + ∇ · (ρv) = 0. The effective density is e^3 ≈ 20 times the local density, with a net factor of 10 relative to classical estimates adjusted by an early QG factor of 2. This framework quantizes mass and predicts gravitational effects in an expanding universe, validated using updated physical constants.
Category: Quantum Gravity and String Theory
[8] viXra:2503.0178 [pdf] submitted on 2025-03-28 03:14:24
Authors: A. V. Kaminsky
Comments: 8 Pages. In Russian
This paper explores the hypothesis that quantum mechanics (QM) is a description of reality from the perspective of an internal observer—an observer who is simultaneously the subject and object of observation. The idea traces back to the work of J.A. Wheeler [1,2], who argued that the Universe cannot be fully explained from an external standpoint and must be integrated into the process of observation. Without claiming universality, we construct a simple model that demonstrates the emergence of QM within this self-referential framework. The conclusion is that quantum reality is an emergent phenomenon in the worldview of an internal observer.
Category: Quantum Gravity and String Theory
[7] viXra:2503.0144 [pdf] submitted on 2025-03-23 06:21:57
Authors: Vivan Mirchandani
Comments: 13 Pages.
I introduce F(U)-gravity, a modified gravitational framework extending Einstein’s theory by incorporating an energy-dependent curvature function F(U). This approach addresses fundamental issues in cosmology and quantum gravity, including singularity resolution, the nature of dark matter, and deviations from standard general relativity. By modifying the Einstein-Hilbert action, I derive new field equations and examine their thermodynamic and observational consequences. My theoretical predictions suggest distinct signatures in gravitational wave echoes and cosmic microwave background anomalies, which could provide experimental validation through upcoming LIGO and LISA observations. This work builds upon approaches such as those proposed by Rosen [Phys. Rev. 57, 147 (1940)] and Stelle [Phys. Rev. D 16, 953 (1977)], offering a novel perspective on the quantum nature of spacetime.
Category: Quantum Gravity and String Theory
[6] viXra:2503.0134 [pdf] replaced on 2025-06-03 22:29:28
Authors: Jennifer Nielsen
Comments: 122 Pages.
This paper presents a novel unified field theory based on a 9-dimensional spacetime on S^1->S^9->CP^4 that elegantly unifies gravity, electromagnetism, and the strong and weak nuclear forces through topological principles. The Standard Model gauge groups SU(3)_C × SU(2)_L × U(1)_Y are derived with gravity as a single field from the fibration’s geometry and topology, where gravity is formulated as a topological quantum field theory without the necessity of a metric but reducing to general relativity in a 4D reduction. The base space parameterizes complex time and space dynamics, distinguishing between inertial and accelerated states. The theory is consistent with current experimental data and yields unprecedented first-principles predictions of lepton (electron, muon, tau), photon, graviton, and intermediate vector boson (Z, W, Higgs) masses and resolves the muon g-2 anomaly within greater precision than lattice-QCD. The quantum numbers and constants including the speed of light c, the gravitational constant G, the vacuum expectation value, and the fine structure constant are derived from first principles of the theory. The theory offers a falsifiable, topologically grounded theory of everything, predicting phase shifts testable via contemporary interferometry and offering a new paradigm for understanding fundamental interactions and spacetime structure.
Category: Quantum Gravity and String Theory
[5] viXra:2503.0114 [pdf] replaced on 2025-10-23 14:16:41
Authors: Bader Binkhudhayr
Comments: 15 Pages.
The Unifying Theory (UT) proposes a transformative approach to unifying quantum mechanics and classical physics by redefining motion as discrete jumps. Each jump is defined by two temporal parameters: a brief jump duration and a "linger time" denoting the pause between successive jumps. The theory postulates two motion regimes: stochastic jumps with zero linger time, spanning the wave function’s spatial extent and producing quantum interference patterns; and deterministic jumps at fixed distances (the de Broglie wavelength λ_dB) with non-zero linger time, yielding classical behavior. The transition between regimes is triggered by measurement-induced entanglement with a measurement system—a process where quantum systems entangle with detectors, altering their jump dynamics from stochastic to deterministic, thus providing a physical mechanism for wave function collapse. UT also explains length contraction by incorporating relativistic effects through a dilated jump time t_p^'=t_p/√(1-v^2/c^2 ),. Finally, UT offers testable predictions, including distinct electron scattering angles of ~0.05° on crystalline surfaces when the de Broglie wavelength matches lattice spacing—testable with existing electron microscopy techniques. Unlike current approaches that treat quantum and classical physics as separate domains, UT provides a unified framework with concrete experimental signatures.
Category: Quantum Gravity and String Theory
[4] viXra:2503.0097 [pdf] replaced on 2025-04-29 08:07:54
Authors: Muhammad Shahzaib Uddin Khan
Comments: 73 Pages.
TSVF-SUSY is a new theoretical framework that aims to unify quantum mechanics and gravity using a time-symmetric and CPT-invariant approach. It combines the Two-State Vector Formalism (TSVF) with N=1 supersymmetry to create a retrocausal model of spacetime. The theory introduces a modified Lagrangian that includes forward and backward-evolving quantum states, as well as second-quantized gravitons.Through functional renormalization group analysis, the model predicts a stable ultraviolet fixed point, which supports the idea that the theory remains consistent at high energies (asymptotic safety). TSVF-SUSY also makes testable predictions, such as gravitational wave echoes, unusual neutrino oscillation patterns, and measurable shifts in weak measurement experiments.Beyond predictions, the framework offers solutions to major unsolved problems in physics. It proposes a cancellation mechanism for the cosmological constant, explains dark energy through auxiliary supersymmetric fields, and naturally suppresses small-scale cosmic structure, helping to resolve the so-called sigma-8 tension. The model has been validated through symbolic calculations, numerical simulations, and is consistent with known experimental data.Overall, TSVF-SUSY presents a self-consistent, falsifiable, and experimentally testable approach to quantum gravity and the nature of spacetime.
Category: Quantum Gravity and String Theory
[3] viXra:2503.0089 [pdf] submitted on 2025-03-14 19:08:17
Authors: Leah Travers
Comments: 20 Pages. (Note by viXra Admin: AI assisted article is in general not acceptable)
The values of fundamental physical constants have long been treated as free parameters, requiring empirical measurement rather than derivation from first principles. In this work, we establish a novel analytical proof demonstrating that these constants emerge as equilibrium conditions of a recursive differentiation process. This analysis reveals that these constants are not independent but are instead stabilized by a universal recursive scaling law.A central result of this work is the emergence of a fixed recursion exponent k ≈ -3, derived from first principles, which constrains the values of h, the fine-structure constant α, and the cosmological constant Λ through a logarithmic scaling relationship. This exponent aligns with known renormalization group flow constraints in quantum field theory, black hole entropy scaling in holographic gravity, and fractal structures in critical phenomena. We explore the implications of this result for gauge symmetries, vacuum energy, and the unification of fundamental interactions.Further, we demonstrate that recursion provides a natural resolution to the scale-separation problem by embedding quantum and cosmological parameters within the same self-organizing structure. This formalism suggests that fundamental constants arise as attractor solutions to recursive differentiation, challenging conventional assumptions about their arbitrariness. Predictions include logarithmic corrections to the fine-structure constant over cosmological timescales, recursive stability constraints on vacuum energy, and scale-invariant deviations in black hole entropy.This work establishes recursion as a fundamental organizing principle of physical law. The recursive differentiation framework presented here lays the foundation for further theoretical development and experimental validation. If confirmed, this result implies that the structure of reality itself is governed by universal recursion constraints rather than arbitrary parameter selection.
Category: Quantum Gravity and String Theory
[2] viXra:2503.0034 [pdf] submitted on 2025-03-06 21:27:05
Authors: Maksym Strygun
Comments: 4 pages, English. Independent research. Includes detailed cross-correlation analysis of GW170817 data with graphical illustrations. No journal submission. License: CC BY-SA 4.0.
This paper presents a correlation analysis of publicly available gravitational wave data from event GW170817 recorded by the LIGO detectors H1 and L1. The analysis aims to identify periodic oscillations predicted by a recently proposed novel time oscillation model, which describes time as possessing intrinsic spiral and oscillatory dynamics. Cross-correlation between the H1 and L1 signals revealed a maximum correlation at a time lag of approximately -14.37 seconds. This time shift is consistent with the theoretical predictions of the proposed model, suggesting possible intrinsic oscillatory dynamics of time. These findings, if confirmed across multiple events, could provide crucial insights into the fundamental nature of time and its relation to quantum gravity.
Category: Quantum Gravity and String Theory
[1] viXra:2503.0020 [pdf] submitted on 2025-03-03 20:53:26
Authors: Muhammad Shahzaib Uddin Khan
Comments: 5 Pages.
This paper presents the first statistically significant evidence for a TSVF-SUSY induced phase shift in gravitational waves detected by the LIGO—Virgo—KAGRA (LVK) Collaboration. Through numerical simulations and statistical analysis, using time-domain and Fourier analysis techniques, I find a consistent phase shift of approximately **0.002 radians** across multiple events, including GW150914, GW170817, and GW190521. With a **corrected signal-to-noise ratio (SNR 433.34), recalculated using an improved integration method over the LIGO noise power spectral density**, and a p-value confirming statistical significance, Ianalyze the correlation of this effect with binaryparameters. I find that the TSVF-SUSY phase shift scales with **mass (r = 0.992), spin (r = 0.996), and redshift (r = 0.977)**, suggesting a non-universal effect linked to black hole properties and cosmic expansion. These results provide a testable prediction for future GW detections, particularly with upcoming observatories such as **LISA and the Einstein Telescope (ET)**, which will have enhanced sensitivity to phase shifts in different frequency regimes.
Category: Quantum Gravity and String Theory
| Third-Party Links: |
|