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[22] viXra:2506.0161 [pdf] submitted on 2025-06-29 00:09:48
Authors: Gary Barham, Christine van Blokland
Comments: 49 Pages. Presented at DemystiCon 2025, Sesimbra, Portugal (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)
We are going to investigate a new theory of Light which we are calling the Geometry of Light. This theory shows us that by applying symmetrical positive/negative geometry to physics and especially quantum physics we are able to solve many of its currently unsolved problems and propose a holistic theory of light that could take us on to a new Theory of Everything. The first step towards a ‘new science’ is in fully understanding Light, as light is the first appearance of mass/energy out of the zero-point field, the quantum vacuum of space. We present a revolutionary new theory that proposes light as a composite particle made up of both photons (light/energy) and gluons (darkness/ information). When travelling in free space as ‘light’ these two particles are always connected, always in interaction with each other, and even though we see the flash of light of the photon, it also has its unseen shadow of darkness called the gluon. This continual interaction between the photon and gluon will explain all the quantum weirdness at that level and above, as all particles of matter are created out of the zero-point field via this photon/gluon pairing. The photons create an outer boundary (shell/ shield) of each subatomic particle and the gluons hold the inner boundary (strong force/ glue) or centre of the particle. The internal components (mostly quarks and antiquarks) of all particles are held tightly between these two boundaries, making all of matter truly ‘frozen light’. When pushed apart like this, in the creation of matter, the photons around the outside of the particle will take on a negative charge (shield) and the gluons in the centre a positive charge (glue). These additional charges, within every particle of matter, contribute significantly to finally and fully explaining the ‘weird’ characteristics of quantum physics.
Category: Quantum Physics
[21] viXra:2506.0160 [pdf] submitted on 2025-06-29 00:06:16
Authors: Domenico Oricchio
Comments: 5 Pages.
I write the quantum tunnelling using the Laplace transform to obtain the solutions for multiple barriers.
Category: Quantum Physics
[20] viXra:2506.0157 [pdf] submitted on 2025-06-27 09:39:02
Authors: Satoshi Hanamura
Comments: 7 Pages.
Building upon the previously established 0-Sphere electron model with its internal structure of two thermal kernels and photon sphere exhibiting Zitterbewegung oscillations, we present a new observer-dependent interpretation that fundamentally reframes the origin of anomalous magnetic moments in quantum electrodynamics. While conventional QED requires external magnetic field interactions for any observable anomaly to manifest, our reinterpretation of the existing 0-Sphere framework demonstrates that anomalous magnetic moments can arise as purely geometric effects in free electrons through relativistic observer transformations. The crucial new insight emerges from recognizing that the same internal Zitterbewegung motion at v ~ 0.04c yields different measurements depending on the observer's reference frame: an observer co-moving with the internal motion measures a g-factor of exactly 2 consistent with Dirac theory, while an observer in the laboratory frame perceives Lorentz contraction effects that manifest as the anomalous magnetic moment through the predicted relationship γ = 1 + a. This observer-dependent reinterpretation transforms our understanding of quantum magnetic anomalies from interaction-based corrections to relativistic geometric consequences of internal motion, suggesting that quantum phenomena traditionally attributed to virtual particle interactions may represent observable effects of relativistic internal structure, thereby opening new avenues for understanding quantum mechanics through geometric principles without requiring external field perturbations.
Category: Quantum Physics
[19] viXra:2506.0155 [pdf] submitted on 2025-06-27 17:11:26
Authors: John P Wallace, Michael J. Wallace
Comments: 8 Pages.
The nucleons with their components and force fields are a greater challenge for quantum mechanics than the hydrogen atom that had provided deep cover to hide the defects both in quantum mechanics and relativity (Wallace and Wallace, 2024c). Once a correction to special relativity was made allowing γ to take on values less than one the hydrogenground state could be accurately computed providing a method to deal with the nucleons. A result was to discover why the neutron and proton are stable and have similar masses.
Category: Quantum Physics
[18] viXra:2506.0140 [pdf] submitted on 2025-06-24 21:34:17
Authors: Lucian M. Ionescu
Comments: 26 Pages. Invited presentation at the XVI International Workshop on Lie Theory and Applications to Physics, Varna, Bulgaria, June 16-22, 2025.
At quantum level, relativistic time emerges from quantum phase. The Kahler structure in Gauge Theory is adequate for implementing an "Einstein-Feynman relativistic proper time", replacing the Space-Time paradigm for classical/quantum relativistic Physics. A preliminary investigation of how to relate Hodge structure as a model for periods of vibration (energy spectrum), in relation to the above interpretation of the quantum phase, will be provided in terms of algebraic integrals called periods. The Algebraic-Geometry model proposed for the implementation is that of Belyi pairs with associated dessins d’enfant, interpreted as Einstein-Feynman Graphs (to include the idea of proper time via quantum phase). An overarching goal is to relate "Classical" and "Quantum Physics" via Hilbertization, Hodgeification and Wilsonization, to be technically explained in an upcoming article, expanding this presentation.
Category: Quantum Physics
[17] viXra:2506.0139 [pdf] submitted on 2025-06-24 14:53:00
Authors: Armin Nikkhah Shirazi
Comments: 1 Page. Presented at the TIQT 2025 the 5th annual conference on time in quantum theory in Genoa, Italy June 2025
If we start with Minkowski Spacetime and take the global limit c → 0 seriously, it yields a spacetime which is utterly unfamiliar to our intuitions, yet consistent and intelligible. In this spacetime, motion in space is impossible and a novel coordinate transformation I callthe time-Galilean transformation describes aging without motion. I argue that this transformation fits the role of unitary time evolution in quantum mechanics because a) quantum states can always be decomposed in terms of a superposition of stationary states (energy eigenstates), and b) quantum motion is fundamentally different from classical motion. I take this as evidencefor a modal distinction between the classical and quantum worlds. I concretize this idea with the introduction of what I call the Heisenberg Interpretation, which interprets quantum states as a certain kind of pure physical possibility. The interpretation makes novel predictionswith respect to the interface between quantum theory and Einstein’s general relativity arising from the disinction between possibilities and actualities in spacetime.*Please note*: during the Conference, I found out that what I called the time-Galilean transformations had been previously discovered and is known as the Carrollian transformations. I left the poster unchanged because I wanted it to be a record of what conference participants saw.
Category: Quantum Physics
[16] viXra:2506.0133 [pdf] submitted on 2025-06-22 00:03:48
Authors: Kyoung-il Ko
Comments: 16 Pages.
This paper introduces and formalizes In-Out Ontology (IOO) as a foundational metaphysical framework for understanding emergence, quantum reality, and consciousness. Centered on the dynamics of In-Out Indistincts (IOIs) — ontological primitives held in a balanced superposition of inward and outward directional modes — IOO reinterprets quantum phenomena, spacetime, and cognition through a generative, relational lens. We construct the formal architecture of In-Out Entanglement (IOE) and define IOE field as the directional interaction field responsible for dimensional/structural emergence. Euler’s identity is reframed as an ontological archetype of IOIs, while the general wave function Ψ expresses IOIs in contextual entanglement. The global IOE field since cosmic emergence is proposed as the ontological source of gravitational coherence. IOO further offers a reinterpretation of decoherence, affective valence, and qualia as outcomes of recursive directional differentiation. Integrating recent developments in quantum foundations and cognitive science, IOO proposes an ontological ground that reframes physical law, interpretive models of quantum mechanics (QM), and the architecture of consciousness. The paper concludes by suggesting new directions for cosmology, cognition, and complexity science rooted in the in-out dynamic.
Category: Quantum Physics
[15] viXra:2506.0128 [pdf] submitted on 2025-06-22 20:56:19
Authors: Gerard van der Ham
Comments: 4 Pages. (Note by viXra Admin: Please cite and list relevant scientific references)
If the idea of the possibility to realize quantum computers is based on the conclusions drawn from Bell experiments, then we are seriously mistaken. This is because entanglement in Bell experiments is not what it looks like and because of that, probabilities represented by the Bloch sphere, occurring in Bell experiments, are wrongly ascribed to qubits.
Category: Quantum Physics
[14] viXra:2506.0119 [pdf] submitted on 2025-06-20 10:09:29
Authors: Satoshi Hanamura
Comments: 16 Pages.
This paper introduces a novel geometric framework for quantum mechanics—the 0-Sphere Model—which reinterprets superposition, spin quantization, and energy conservation as consequences of internal deterministic motion constrained by closed time-phase geometry. Unlike standard approaches that derive conservation laws from externally imposed symmetries via Noether’s theorem, the model proposes that energy, spin, and charge conservation emerge naturally from internal oscillatory structure. This conceptual inversion, termed "Noetherian Reinterpretation," challenges the assumption that symmetries are fundamental, suggesting instead that they may arise from intrinsic phase coherence. The model also provides a deterministic account of Zitterbewegung, explains the electron's rest energy as a form of thermal potential energy, and predicts experimentally testable features such as subluminal Zitterbewegung velocity (~0.04047c). By bridging relativistic and quantum dynamics through internal geometry, the 0-Sphere framework offers a unified and realist reinterpretation of fundamental physical laws.
Category: Quantum Physics
[13] viXra:2506.0115 [pdf] submitted on 2025-06-20 20:31:18
Authors: John James
Comments: 29 Pages. © 2025 John James. Published also on Zenodo: https://zenodo.org/records/15706608
This paper introduces the Quantahedron—a 2D angular geometry whose symmetry and deviation encode mass, energy, and time. Within this framework, mass, energy, and time emerge from directional summation and angular deviation, and the speed of light squared (c!) is a geometric invariant embedded in null-diagonal propagation. The Quantahedron structure operates as a discrete lattice of vectorial propagation governed by amplitude normalization (|V"| + |Vᵧ| = 1). When V" = Vᵧ, mass vanishes, and propagation is light-like. Asymmetry from this null slope encodes mass via the relation m = |#$|, while energy arises geometrically through E = m × c!. By anchoring lattice units to known physical constants (e.g., Compton wavelengths of the electron and proton), the Quantahedron allows direct calibration into measurable physics. Time itself emerges as a function of angular delay, unifying geometry with relativistic curvature and quantum amplitude. This geometric interpretation proposes a novel unification between quantum mechanics and general relativity, suggesting that the deep structure of reality may be written not in forces or fields, but in form. E = mc! becomes not an applied relation, but a geometric truth lived by the lattice.
Category: Quantum Physics
[12] viXra:2506.0076 [pdf] submitted on 2025-06-15 00:47:35
Authors: Fei Yu
Comments: 5 Pages.
The Spiral Motion has a wave function, it can also have a "minimum length" as it’s radius, this role can make itself to have a contingent coordinate system as inertial. After trying to impose the additivity, a motion theory appears and can be chosen as a solution comprising both classical motion and relativity motion.
Category: Quantum Physics
[11] viXra:2506.0072 [pdf] submitted on 2025-06-13 17:03:08
Authors: Satoshi Hanamura
Comments: 10 Pages.
We present a time-dependent model of electron spin in which the spin angular momentum arises from internal oscillatory motion rather than from a static pseudovector. This work corrects a dimensional inconsistency in our previous formulation by explicitly introducing the unit vector e_z along the z-axis, ensuring proper vector notation for the angular velocity Ω(t) = -(1/4c²)sin(2ωt)·e_z. Inspired by a reinterpretation of Thomas precession, we emphasize that angular momentum can emerge even in non-circular or reciprocating motion, such as a simple harmonic oscillator. This leads us to treat the spin as a real vector whose z-component evolves as sin(2ωt), reflecting an intrinsic 4π periodicity. The model is built upon a closed internal phase space—specifically, the 0-Sphere kernel structure—and provides a deterministic evolution of spin orientation in internal time. Spin quantization is reinterpreted as a geometric effect of phase evolution, eliminating the need for a predefined spin direction. The formulation reproduces the SU(2) double-covering property in a natural and geometric manner, offering new insight into the origin of spin and its fundamental symmetries. Moreover, the model provides a novel interpretation of the anomalous g-factor as a relativistic effect arising from Lorentz contraction in internal oscillatory motion. The conventional SU(2) symmetry is shown to emerge geometrically from an underlying U(1) phase evolution, suggesting that spin behavior reflects continuous internal dynamics rather than discrete quantum states. This corrected formulation offers a deterministic foundation for understanding spin measurements and the 720-degree rotation symmetry of spin-1/2 particles.
Category: Quantum Physics
[10] viXra:2506.0067 [pdf] submitted on 2025-06-13 21:17:47
Authors: John James
Comments: 21 Pages. JohnBJamesJr@gmail.com, 619-203-5078
This thesis presents a novel unification framework that bridges quantum mechanics and general relativity through a discrete, vectorial system known as the 2D Quanta lattice. By modeling spacetime as a combinatorial network of directional vectors normalized within a ±1 amplitude space, this framework simulates both quantum probability amplitudes and relativistic spacetime curvature without relying on continuous manifolds.Key to this model are cross-current vectors—diagonal propagations formed by orthogonal summations—which encode null trajectories and time dilation through angular geometry. These directional patterns replicate relativistic effects such as gravitational lensing and light-cone symmetry, while simultaneously generating quantized amplitude regions analogous to those found in the Amplituhedron, a geometric object central to modern scattering theory.Through a series of diagrams and mathematical constructions, the thesis demonstrates that both curvature and amplitude emerge from the same discrete summation rules. This suggests that space, time, and probability may be dual projections of a deeper vectorial logic—a symbolic substrate from which physical law arises. The result is a unified, geometry-based interpretation of fundamental physics, grounded in direction, symmetry, and quantized coherence.
Category: Quantum Physics
[9] viXra:2506.0066 [pdf] submitted on 2025-06-13 23:26:12
Authors: Domenico Oricchio
Comments: 9 Pages.
I generalize the Kronig-Penney model for multiple barrier potentials of different values.I write a different way to solve the rectangular potential barrier so to simplify the solutions.I try to understand the complexity of energy band in the alloys to optimize the photons absorption using a random modification of model parameters.
Category: Quantum Physics
[8] viXra:2506.0063 [pdf] submitted on 2025-06-12 07:48:56
Authors: Gerard van der Ham
Comments: 2 Pages.
This paper is a call to realize and recognize the importance of direction in physics.
Category: Quantum Physics
[7] viXra:2506.0037 [pdf] submitted on 2025-06-09 17:22:36
Authors: Victor Vaguine, Andre Vaguine
Comments: 13 Pages.
Due to its statistical nature, the Standard Model runs into fundamental limitations: it denies the objectivity of a particle’s location and velocity at the same time, is unable to provide three-dimensional visualization of the inner structures of particles and their three-dimensional spacetime dynamics, and cannot describe and visualize the process of decay and the formation of new inner structures.
It is shown here that Statistical Quantum Mechanics (SQM) and Ontological Quantum Mechanics (OQM) are two branches of the overall quantum theory, where OQM is the principal and deeper branch.
The ontological branch of quantum theory overcomes the limitations of the statistical branch with elegancy, intuition, and basic mathematical formalism.
OQM has opened the floodgate of ontological quantum physics far beyond the Standard Model, bringing back intuition and dramatic simplification of mathematical formalism at least on the initial stage of its development. It leads to fundamental scientific discoveries at every turn in particle physics.
OQM represents an initial effort at the explanation of causality in quantum processes and particle-particle interactions.
OQM has expanded our fundamental understanding of quantum reality by including two new fundamental categories, the aphysical matter and the universal elementary consciousness. It offers three-dimensional inner structure design with perfect geometry for each class of elementary particles, provides visualization of individual particle dynamics in spacetime, describes the process of decay and the formation of new inner structures. It explains the origin of self-mass and explains the fundamental role of spin as the generator of self-mass for each class of elementary particles. It solves all known quantum enigmas, including the collapse of the wavefunction, the double-slit experiment, and the non-radiating orbiting electron. It provides an ontological explanation for the anomaly in the electron magnetic moment. Quantum mechanics is no longer enigmatic.
Category: Quantum Physics
[6] viXra:2506.0032 [pdf] submitted on 2025-06-08 21:22:09
Authors: Bijon Kumar Sen
Comments: 8 Pages. 2 Figures; 1 Table
Electromagnetic radiation posed a problem to the scientists for more than three centuries in that it exhibited particle and wave property at the same time. Sir Isaac Newton’s corpuscular theory reigned supreme for more than a century but later wave theory gained momentum and a heavy tussle prevailed with no conclusive verdict for either approach. At last as a compromise it was accepted that both the descriptions are acceptable but unambiguous solution of the problem of duality remained allusive. Wave property being the root for uncertainty, the principle of Heisenberg squarely blamed the microscopic inadequacy as a root cause although wave properties of the radiation may also be the cause of uncertainty. De Broglie intervened with his matter waves to account for the wave-particle duality and invokedquantum and wave mechanics to solve the dilemma. This was an imposed description whichdelayed the unambiguous solution for about a century. It was the brilliant proposal of Maxwell’s equations which on analysis unveiled the enigma of wave-particle duality of electromagnetic radiation. These radiations are not of single component but actually two components exist simultaneously which are not interconvertible. One is guided by quantum mechanics and the other by wave mechanics. While the wave character may make up for 100% of the rays, the particle part due to its quantum nature is not able to contribute to make it 100%. This bi-component model of electromagnetic radiation is able to explain the occurrence of different phenomena like Red Shift, Tunnel Effect, Photoelectric Effect, magnetic properties, electron spin etc., in an unambiguous manner without contradicting any of the accepted theories of electromagnetic radiation.
Category: Quantum Physics
[5] viXra:2506.0031 [pdf] submitted on 2025-06-08 08:34:48
Authors: Satoshi Hanamura
Comments: 3 Pages.
We investigate the challenges of incorporating time-dependent mass in classical Lagrangian mechanics, where velocity-dependent terms break time-translation symmetry and complicate energy conservation. Using the 0-Sphere model—a point-like system with thermally modulated mass inspired by Zitterbewegung and thermal oscillations—we demonstrate that a Hamiltonian formulation simplifies the dynamics by eliminating velocity-dependent terms and preserving energy conservation through conserved momentum, despite the Hamiltonian’s explicit time dependence. The model assumes a position-independent thermal potential and oscillatory mass modulation, providing a mathematically consistent framework. We also explore a preliminary quantum extension via the time-dependent Schrödinger equation, suggesting potential applications to thermally driven systems. While the model’s reliance on simplified potentials and the naive quantum approach limit its generality, this work offers a starting point for understanding systems with dynamic inertial properties, with possible relevance to cosmology and quantum mechanics.
Category: Quantum Physics
[4] viXra:2506.0026 [pdf] submitted on 2025-06-07 20:22:54
Authors: Kuo-Tso Chen
Comments: 8 Pages. (Note by viXra Admin: Please cite and list scientific references)
This paper proposes a concept of an electric field standing wave that does not radiate energy, using it to speculate on the nature of fundamental particles and the reason why the speed of light appears to be constant. Through a mechanism involving the reflection of a spherically symmetric electric field variation, this study explains how electric field energy can be confined to a specific space, leading to the formation of quasi-fundamental particles with mass. Furthermore, it is theorized that if both time and distance are defined by the internal oscillations of such particles, then even if the actual speed of light varies, the observed value of light speed would remain constant. This idea also provides a possible explanation for why material objects cannot exceed the speed of light.
Category: Quantum Physics
[3] viXra:2506.0025 [pdf] submitted on 2025-06-07 20:15:53
Authors: Sonali Tamhankar
Comments: 7 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)
We set forward a set of axioms to interpret the observer in quantum mechanics. Our axioms treat observers as quantum states and provide rules for what they can observe. We demonstrate that our framework, which we call the NEW interpretation of Quantum Mechanics, provides a resolution of the Frauchiger-Renner paradox [1], restoring consistency to Quantum Mechanics. The resolution is brought about by a careful definition of 'Consistency', Assumption (C). With this precise definition, our interpretation satisfies all three Assumptions (Q), (C), and (S), without logical contradictions. The scope of this paper only extends to setting forward our axioms and addressing the Frauchiger-Renner paradox. Additional context for the NEW worldview, along with a matching NEW conjecture, is provided elsewhere [2].
Category: Quantum Physics
[2] viXra:2506.0014 [pdf] submitted on 2025-06-05 11:02:53
Authors: Austin J. Fearnley
Comments: 12 Pages.
In consequence of the 2022 Nobel prizes for Physics for experimentalists who devised and ran loophole-free Bell experiments in 2015, a new approach to quantum ontology and a revised version of reality may be required. A revised version of reality is suggested in this paper using an extra dimension: an electric dimension based on Kaluza-Klein’s fifth dimension. Both quantum retrocausality and preons are essential to understanding the effects of the electric dimension. Also suggested is the whereabouts of antimatter in our future, given that antipreons travel backwards against the thermodynamic arrow of time: where do they come from?
Category: Quantum Physics
[1] viXra:2506.0005 [pdf] replaced on 2025-06-06 20:19:58
Authors: Gang Chen, Tianman Chen, Tianyi Chen
Comments: 9 Pages. 2 Figures.
In this paper, we calculate the lifetime of ortho-positronium (o-Ps) in vacuum with Euler formula for Basil problem and our previous formulas of the fine-structure constant and the atomic unit of time (tau). Our calculated value of the lifetime of ortho-positronium in vacuum is 142.041358500909 ns in comparison to the most accurate measured value which was 142.043(14) ns and the latest QED calculated value which was 142.04606(20) ns. In addition, with the similar method we also calculate out the lifetime of para-positronium (p-Ps) in vacuum which is 0.1251627502491 ns compared to the QED calculated values 0.125162617(3) ns and 0.125162432(3) ns.
Category: Quantum Physics
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