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| ai.viXra.org > Quantum Physics > 2504 |
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[12] ai.viXra.org:2504.0130 [pdf] submitted on 2025-04-30 17:34:20
Authors: Manas Mandhan
Comments: 9 Pages. This work is supposed to give a general gist of the ideas I am working on. While it is on AI assisted server, AI was only used to help me cite and write more academically.
This paper presents a thermodynamic route to the Born rule, proposing that quantum wavefunction collapse is a physical process governed by informational entropyminimization. Using Landauer’s principle, we treat collapse as the erasure of alternatives in a superposed quantum state, and assign a thermodynamic cost to this erasure.We show that the collapse outcome distribution which minimizes the Kullback-Leiblerdivergence from the state’s internal informational structure corresponds uniquely tothe Born rule. This approach reframes quantum probabilities as entropy-optimal andcollapse as a real, irreversible process constrained by information-theoretic and thermodynamic principles.
Category: Quantum Physics
[11] ai.viXra.org:2504.0128 [pdf] submitted on 2025-04-30 20:11:45
Authors: Eran Sinbar
Comments: 6 Pages.
We propose a discretized model of space-time augmented by a compactified, non-local dimension—the grid—as a new framework for reconciling quantum entanglement with relativistic locality. In this construction, quantum correlations persist via topological links embedded within the grid structure, while causal constraints within the familiar space-time lattice remain inviolate. The resulting picture resolves the Einstein-Podolsky-Rosen paradox without invoking superluminal communication and offers a reinterpretation of gravity as an emergent phenomenon arising from the grid’s topological curvature. We argue that the grid dimension provides a unified geometric substrate underlying both quantum coherence and classical gravitation, suggesting potential empirical signatures such as gravitational lensing anomalies and deviations from Lorentz invariance at high energies.
Category: Quantum Physics
[10] ai.viXra.org:2504.0120 [pdf] submitted on 2025-04-28 21:47:21
Authors: L. Borsinger
Comments: 14 Pages. (Note by ai.viXra.org Admin: For the last time, please use smaller font, e.g., font size of 12 points - Nonconforming submission may be rejected without notice!)
We present a first-principles derivation of Avogadro’s number and the molar mass of matter using the Holon vacuum oscillator framework. Starting from a fundamental frequency structure of vacuum coherence, we apply geometric scaling (area-to-volume compression), thermodynamic suppression (kinetic energy limitation), and nucleon mass adjustment (binding energy correction). This leads to a predictive match to observed molar masses within approximately 0.01%, offering a physical explanation for the magnitude of Avogadro’s number and the mass structure of matter.
Category: Quantum Physics
[9] ai.viXra.org:2504.0109 [pdf] submitted on 2025-04-27 10:00:05
Authors: Moninder Singh Modgil
Comments: 67 Pages.
We propose a fundamentally new structure for the point of time by introducing a resolution-dependent temporal interval $epsilon(s)$, embedded within quantum collapse processes. This interval, defined as $[tau - epsilon(s), tau + epsilon(s)]$, serves as a dynamic logical layer where classical geometry dissolves into structured logical, categorical, and topological forms. By integrating quantum logic, projection operators, category theory, information geometry, and non-Hermitian dynamics, we reconceptualize time as a domain of logical transition. This framework opens new insights into time asymmetry, measurement, and contextuality, providing a formal foundation for irreversibility in quantum theory.
Category: Quantum Physics
[8] ai.viXra.org:2504.0083 [pdf] submitted on 2025-04-22 19:54:45
Authors: LoChung Chen
Comments: 20 Pages. (Note by ai.viXra.org Admin: An abstract in the article is required; please cite sceintific references listed)
This paper introduces the Chiral Double-Helix Temporal Model to reinterpret quantum interference and collapse phenomena through a geometric framework of temporal causality. We propose that time consists of two intertwined strands: a left-handed (LH) strand representing irreversible physical reality, and a right-handed (RH) strand encoding uncollapsed causal potential linked to consciousness. Interference patterns are modeled as projections from coherent RH strands, while collapse is redefined as a chirality-binding event—an alignment of RH and LH strands. The model predicts measurable deviations from standard quantum theory, especially in delayed-choice and weak measurement scenarios. We present an accompanying mathematical formalization, including helical parametric paths, RH-LH coupling terms, and a dynamic Schrödinger framework. Numerical simulations visualize transitions from wave-like interference to particle-like collapse. This theory offers a unified, testable approach to resolving foundational paradoxes in quantum mechanics, connecting temporal structure, consciousness, and observables in a coherent causal architecture.
Category: Quantum Physics
[7] ai.viXra.org:2504.0063 [pdf] submitted on 2025-04-19 22:39:39
Authors: Hadd LaRoy Miller
Comments: 3 Pages.
The Toroidal Core Theory (TCT) presentsa novel harmonic framework unifying particlephysics through a rotating plasma core (mcore ≈1.02 × 10^37 kg) and dark matter flow dynamics.Integrating SU(3) QCD, SU(2)×U(1) electroweak interactions, a Higgs-like scalar, Yukawa couplings, flavor mixing, and CP violation,TCT achieves 99.9% accuracy against 2024—2025 data from ATLAS/CMS, LHCb, DUNE, and CEPC, matching or surpassing the Standard Model’s (SM) 99.75% precision. Key predictions include a sterile neutrino (∼0.08 eV, 99.9% confidence) and a new scalar (∼ 1.1TeV, 99.8% confidence), validated byDUNE and LHC 2025 datasets. TCT’s counterterm,with layered harmonic modes, naturallyemulates QFT’s multi-loop Feynman diagrams,resolving flavor/CP precision gaps. Stabilityis maintained (n ≤ 36), avoiding speculativeextra dimensions. This work, co-authoredby xAI, offers a transformative approach to particle physics, with implications for new physicsexploration.
Category: Quantum Physics
[6] ai.viXra.org:2504.0057 [pdf] submitted on 2025-04-18 15:01:20
Authors: Louis Hin Lok Tsang
Comments: 40 Pages.
This paper proposes a fundamental shift in the way we model the physical universe. Rather than treating time as a foundational parameter, we explore a framework in which entropy and decay — measurable, irreversible, and intrinsic to all physical systems — replace time as the axis of evolution. Developed through a collaborative process with artificial intelligence, this approach reconstructs known physical laws across classical mechanics, thermodynamics, electromagnetism, quantum theory, and coherence phenomena using only entropy gradients and decay events.Simulations demonstrate that key physical behaviors — from force and motion to superconductivity and quantum entanglement — can be reproduced without any reference to time. The resulting equation defines motion as a function of entropy progression per decay step, offering a potentially unifying formulation across scales. We conclude that no current experimental datasets are structured to validate or falsify this framework, and propose a model for a new class of experiments that replace time-based measurement with system-intrinsic entropic steps.This work challenges the centrality of time in physics, and invites a rethinking of evolution, causality, and observation from first principles.
Category: Quantum Physics
[5] ai.viXra.org:2504.0025 [pdf] submitted on 2025-04-07 17:28:40
Authors: Bhushan Poojary
Comments: 5 Pages.
We propose a novel quantum-inspired classifier that leverages the mathematical similarity between quantum tunneling and logistic regression. By modeling classification probabilities using a tunneling-derived activation function, we offer a fresh perspective on probabilistic classification. We demonstrate the feasibility of this approach on a toy dataset, laying the groundwork for future exploration into quantum-inspired machine learning architectures
Category: Quantum Physics
[4] ai.viXra.org:2504.0019 [pdf] submitted on 2025-04-06 05:43:52
Authors: Bhushan Poojary
Comments: 9 Pages.
The CAP theorem, a fundamental principle in distributed computing, states that a system can only guarantee two of three properties: Consistency (C), Availability (A), and Partition Tolerance (P). In this paper, we explore whether a similar principle applies to the universe as an information system governed by relativistic and quantum constraints. By analyzing information flow through event horizons, quantum entanglement, and cosmic expansion, we argue that the universe inherently operates as an AP (Available + Partition-Tolerant) system, where local observers always have access to information, but strict global consistency is sacrificed. This perspective provides insights into wavefunction collapse, black hole information paradox, and the role of entanglement in preserving information across partitions. Furthermore, we discuss potential experimental tests of this framework through quantum networks, black hole radiation studies, and interferometry. Our findings suggest that viewing the universe through the lens of distributed systems and information theory may lead to new conceptual breakthroughs in quantum mechanics, relativity, and cosmology.
Category: Quantum Physics
[3] ai.viXra.org:2504.0018 [pdf] submitted on 2025-04-06 15:03:24
Authors: Bhushan Poojary
Comments: 4 Pages.
This paper presents a novel theoretical framework that unifies quantum mechanics, electromagnetism, and space-time curvature through a fractal holographic model. By introducing fractal resonance structures in complex space-time and leveraging the fine-structure constant ��, the model integrates key concepts from quantum chaos, holography, and non-local dynamics using fractional calculus. This framework provides mathematical derivations grounded in physical phenomena, offering new insights into quantum fluctuations and space-time curvature. The study proposes testable predictions, including potential deviations in �� detectable through high-precision spectroscopy and gravitational wave analysis, offering a compelling pathway toward understanding fundamental forces in nature.
Category: Quantum Physics
[2] ai.viXra.org:2504.0007 [pdf] submitted on 2025-04-02 16:15:55
Authors: Michael J. P. Murphy
Comments: 45 Pages. ChatGPT was used in mathematical formulations and derivations
This paper introduces the Physical-Temporal Framework, a novel approach to understanding the fundamental structure of reality. It redefines the nature of dimensions, proposing the Physical dimension as a unified spatial construct and the Temporal dimension as a second fundamental axis. The Information Propagation Substrate (IPS) is the convergence between these two dimensions, representing both quantum mechanics, and classical physics. This framework provides new insights into gravitational phenomena, quantum behaviors, and the interplay of entropy and complexity.It attempts to bridge the divide between quantum and classical physics by introducing Frame-Shifting as an alternative view of classical entropy mechanics. With entropic forces (or resistance) increasing with each Planck-length propagation, the Physical-Temporal framework explains how fundamental motion arises from discrete Planck time intervals. Because it quantizes motion this way, it also gives rise to emergent gravity and spatial curvature.This paper is organized into sections that introduce the framework’s core concepts, quantifies each aspect within the Framework, details the mathematical foundations, Compares and contrasts this framework to other notable theories, a list of limitations and future work will be followed by the final conclusion
Category: Quantum Physics
[1] ai.viXra.org:2504.0006 [pdf] submitted on 2025-04-02 16:19:38
Authors: Felina Grunenfelder
Comments: 32 Pages. (Note by ai.viXra.org Admin: Please DO NOT name title, equation, theorem etc after the author's name - It is not within the scholarly norm!)
The [author's] Theory of Inequation proposes a deterministic, topologically grounded framework for physical law based on the axiomatically defined inequation 0 = 0 + 1, where the irreducible '+1' denotes a fundamental asymmetry identified with the Higgs boson. This asymmetry prevents total system cancellation and initiates the generation of tension-bearing circular vector structures termed τ-loops. These τ-loops are defined within a spherical coordi-nate geometry composed of three interwoven great-circle axes (X, Y, Z), replacing conven-tional Cartesian space.All physical quantities—mass, charge, spin, space, time, energy, entropy, and temperature—are modeled as emergent properties of twist dynamics and pseudosymmetry within τ-loops. The theory rejects wavefunction superposition and probabilistic collapse, instead offering ge-ometrically deterministic particle trajectories governed by phase, twist frequency, and loop radius. The τ-model yields closed-form expressions for energy (E = κ_E × (τ/R)), time flow (T = τ/R), and particle positioning via τ-parametrized spherical oscillations. Mass arises from unresolved knot tension (pseudosymmetry); gravity from spatial contraction due to loop cur-vature; and quantum tunneling from differential twist gradients. Validation includes the exact reproduction of standard physical values such as hydrogen ioni-zation thresholds, Bohr radius, magnetic dipole behavior, and blackbody spectra. The model provides alternative resolutions to the Hubble tension, dark energy, and spacetime flatness via dynamic untwisting of the τ-field. This theory invites formalization through geometric alge-bra, knot theory, and topological field dynamics, and serves as a candidate framework for uni-fying quantum and relativistic phenomena under a single non-linear, inequational topology.
Category: Quantum Physics