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| viXra.org > Quantum Physics > 2508 |
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[13] viXra:2508.0175 [pdf] submitted on 2025-08-29 20:15:40
Authors: Dan Zachary
Comments: 24 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)
We propose the Quantum Uncertainty-Informed Networked Teleportation protocol, or QUINT, a framework for extracting energy from quantum vacuum fluctuations by exploiting spatially-structured entanglement. Extending conventional quantum energy teleportation (QET) protocols, QUINT protocol hypothesizes that entanglement correlations may be geometrically organized, inspired by the ER=EPR conjecture (treated here as a heuristic for structured entanglement). This structure enables enhanced energy extraction and directional sensitivity across a network of QET nodes. We present the formalism for per-cycle energy extraction, including constraints imposed by quantum energy inequalities, and introduce a simple dynamical model for entanglement depletion and recovery. Observable signatures of the protocol include localized stress-energy redistributions, phase shifts, and anisotropies in extraction efficiency. Our framework provides a pathway to probe structured vacuum entanglement and suggests experimentally testable predictions for quantum-optical or field-theoretic systems. By focusing on measurable energy flows rather than speculative geometries, the QUINT protocol establishes a novel approach to quantum energy engineering and lays the groundwork for exploring the operational consequences of vacuum entanglement networks.
Category: Quantum Physics
[12] viXra:2508.0171 [pdf] submitted on 2025-08-28 15:46:09
Authors: Steve P. Smith
Comments: 16 Pages. (Note by viXra Admin: For the last time, please cite and list scientific reference and submit article written with AI assistance to ai.viXra.org)
This work posits that the fundamental constants of nature, including the gravitational constant G, are not independent parameters but emergent properties of quantum vacuum statistics. We demonstrate that the ratio of the Bohr radius to the Planck length defines a fundamental number of microstates, Ω=2N_A e for a molar system. This entropic scaling factor Ω serves as the cornerstone of a new axiomatic framework. From only the ground-state properties of the hydrogen atom (a_0 , m_e , α) and Ω, we derive the complete set of Planck units and fundamental constants with precision exceeding current experimental uncertainty in G. This framework renders gravity an entropic force—a thermodynamic consequence of the information content at the Planck scale—and provides a unified, first-principles derivation of physical law from quantum mechanics to cosmology.
Category: Quantum Physics
[11] viXra:2508.0107 [pdf] submitted on 2025-08-15 20:53:40
Authors: Daniel S. Zachary
Comments: 18 Pages.
We propose a theoretical framework in which spacetime curvature and localized energy density emerge from modulations of vacuum entanglement structure. Building upon quantum energy teleportation (QET) protocols and the entanglement-geometry correspondence, we introduce an operational mechanism by which local measurements can induce energy redistribution across spacelike-separated regions. This mechanism does not involve classical signal propagation and remains consistent with causality and quantum energy inequalities. We formalize this hypothesis through an effective entanglement stress-energy tensor and derive its implications for geometry, energy flow, and negative energy densities. Experimental signatures include curvature shifts detectable by atom interferometers, clock desynchronization in optical networks, and vacuum pressure changes in Casimir systems. We identify feasible experimental platforms and outline protocols to test this proposal within current or near-future precision measurement technologies.
Category: Quantum Physics
[10] viXra:2508.0092 [pdf] submitted on 2025-08-14 20:24:17
Authors: Igor Tkachenko, Sergii Miroshnychenko, Kostiantin Tkachenko, Victoria Miroshnychenko, Yurii Miroshnychenko
Comments: 6 Pages.
Based on the clear physically interpreted variant of the Heizenberg uncertainty relation connecting the uncertainties for impulse and a space coordinate of any material object, the other variant related to the uncertainties of time and energy for such an object was analytically derived based on the classical mechanics. Considering a measuring procedure as the combination of minimum two non stationary stochastic processes a formula to define the time —quantum was derived using the early developed analytic model. Numerical value of the time — quantum then evaluated was shown to be in a good accordance with the known characteristics of our Universe. Dependence of the time-quantum value from the properties of material objects comprised and the evolution time for the Universe was shown.
Category: Quantum Physics
[9] viXra:2508.0087 [pdf] submitted on 2025-08-14 15:14:32
Authors: Michael A. Ivanov
Comments: 12 Pages. This article is accepted by Journal of Optics and Photonics Research (eISSN: 3029-1348), 2025.
The existence of a background of ultra-strongly interactinggravitons is a key postulate of the author's low-energy gravitymodel. Side effects of the model due to photons interacting withthis background may be important for cosmology, and theirobservation would be essential to support the model. The mostimportant such effect is the quantum redshift mechanism, which mayconstitute an alternative to the generally accepted mechanismassociated with the expansion of the universe. The model shouldhave a weakening of the light flux due to a change in the numberof photons, which replaces the influence of dark energy. Scatteredphotons may form a new background that can be detected by deepspace missions. Some important predictions of the model are testedusing observational data sets of SNe Ia, compact quasars andLyman-alpha emitters. The article shows that the linear function$H(z) $ of the model satisfactorily describes the results ofmeasurements of the Hubble parameter. Using a trial function forthe weakening parameter, the possibility of a differentinterpretation of the Hubble tension is illustrated. Theincreasing angular diameter distance of this model is fitted to aset of 120 measurements of the angular sizes of compact quasarswith redshifts of $0.46 -- 2.76$ with independent calibration oftheir linear sizes. Attention is drawn to the possibility of afalse interpretation of changes in the measured sizes ofLyman-alpha emitters observed by JWST in the redshift range of $3-- 7$ as evolutionary effects in the $Lambda$CDM model, sincethese changes can be due to the increasing angular diameterdistance of this model.
Category: Quantum Physics
[8] viXra:2508.0071 [pdf] submitted on 2025-08-10 17:53:29
Authors: Runsheng Tu
Comments: 11 Pages. in Chinese
Nowadays, the notion that 'quantum mechanics and classical mechanics are incompatible' is firmly held in people's minds. One of the paths of the physics revolution was to break this notion and achieve the goal of combining classical mechanics with quantum mechanics. The Schrödinger equation for gravitational potential energy was derived by replacing the potential energy function. This equation can describe classical mechanical systems, and is a mathematical foundation that can be combined with classical mechanics and quantum mechanics. Mathematically speaking, the application of Hamiltonian operator and Schrödinger equation is not limited by whether the system is microscopic or macroscopic. The method of using the Schrödinger equation to solve problems is called the wave dynamics method (quantum mechanics method). The classical mechanical system can use the Schrödinger equation. This indicates that classical mechanics and quantum mechanics can be combined for the same system. As long as there is no superstition about the absolute dominance of existing quantum mechanical explanations such as uncertainty, superposition, and coherence in the microscopic world (Plus establishing a ring electronic structure model), the combination of classical mechanics and quantum mechanics can be used in practice. Multiple successful examples of using quantum mechanics without combining classical forces have been provided with the help of references.
Category: Quantum Physics
[7] viXra:2508.0045 [pdf] submitted on 2025-08-06 23:17:16
Authors: Steve P. Smith
Comments: 7 Pages. (Note by viXra Admin: Please cite and list scientific reference and submit article written with AI assistance to ai.viXra.org)
Introducing a velocity-based paradigm grounded in quantum electrodynamics (QED) that reformulates the conductance quantum G_0=2e^2/h as G_0=4ϵ_0 v_e (ve=αc). This framework resolves the Majorana fermion reproducibility crisis by defining the effective velocity v_eff=α_SO/(ℏV_z) as a topological discriminant. It will be proven that true Majorana zero modes (MZMs) exhibit v_eff∼ 10^4 m/s, distinguishable from trivial Andreev bound states (ABS) via time-resolved Andreev reflection (τ=L/v_eff ). Experimental protocols and stability metrics (R= δE⋅ξ/ℏve≤ 1) enable scalable topological Qubits.
Category: Quantum Physics
[6] viXra:2508.0041 [pdf] submitted on 2025-08-06 07:23:17
Authors: Eric Louis Beaubien
Comments: 4 Pages.
The fundamental quark theory of the Standard Model has been expanding through experimental results and answering criticism, for more than half a century. We can therefore reasonably assume, based on historical precedent, that there is some basic aspect of existence that is instantiated by "quarks". The conjectural model here presented assigns the subjective components, C P T M S and L, as the identities of the six quarks, Up Down Strange Charm Top and Bottom (presently no known order of correspondence). The principal conjecture is that quarks represent solutions to problems in "subjective physics" that have consequences in the objective realm and therefore require geometric instantiation in some fashion.
Category: Quantum Physics
[5] viXra:2508.0033 [pdf] submitted on 2025-08-06 21:37:33
Authors: Israel Teomim
Comments: 5 Pages.
Potential application of special surface geometries to generate a horizontal Casimir force component parallel to the overall surface. Proper alignment of surfaces with these geometries generates an angled force component that can be reduced to the horizontal force alone (the Casimir force component parallel to the overall surface) by an additional external force. Configurations are based on a pair of straight and parallel surfaces with such geometries that the geometry of one is a mirror image of the other with respect to an axis perpendicular to their overall surfaces. Both surfaces face each other with the aforementioned mirrored geometric structures. For example, by appropriately placing such surfaces on the bases of two rollers, which are directed towards each other with their bases and separated by a vacuum (also in the surrounding space), it is possible to obtain a controlled torque of these rollers, whereby they rotate in opposite directions. The presence of a vacuum eliminates friction between the elements and the air and avoids weakening the Casimir force. This makes it possible to use the Casimir force as a source of mechanical energy and, in the example discussed, as a source of torque that can be converted into useful energy.
Category: Quantum Physics
[4] viXra:2508.0029 [pdf] submitted on 2025-08-05 06:14:55
Authors: Eric Louis Beaubien
Comments: 2 Pages.
The reason for there being two states with respect to "spin" is rooted in the four logic types (0, 1, 2, 3-logic). When there is a seemingly mysterious property of matter, we inevitably find a rational solution in 2-logic (the relativistic perspective) which is only at "apparent variance" with 3-logic (the Newtonian viewpoint) u2026 both being logically viable. So, logic must adjudicate a solution resulting in the noncontradictory instantiation of both in the "real world".
Category: Quantum Physics
[3] viXra:2508.0023 [pdf] submitted on 2025-08-05 14:27:48
Authors: Jouni Puuronen
Comments: 15 Pages.
We prove that the relativistic Schrodinger equation of a massive point particle in one dimension is equivalent to an alternative time evolution formulation where the values of the wave function depend on the wave function's past values on relativistic hyperbolas inside the past light cones.
Category: Quantum Physics
[2] viXra:2508.0013 [pdf] submitted on 2025-08-03 23:30:43
Authors: Dominique Mareau
Comments: 10 Pages.
The unit "electron" is universal, because it is not based on the arbitrary units [kg, m, s] of the SI system. Any other possible civilizations could express a mass, a length or a time, in the form of a (dimensionless) ratio with the electron. But the free and measured electron, is dressed in virtual particles, which slightly increase its bare mass. Its bare mass is not measurable, because of the impossibility of decoupling it from the virtual particles. Starting from Yoshio Koide's formula [1] and by proposing bare and integer values, the paper [2] improves by a factor ≈ 100, the KOIDE relations. This suggests that the original electronpositron pairs have a different status from the locally created pairs. This new paradigm states that the muon mass, measured at 206.768 "dressed electron" units, shows multiple coherence if it is composed of 206 "naked, whole, and fused" electron units + 1 single electron or positron. Similarly, the mass of the tau, measured at 3477.103 "dressed electron" units, exhibits multiple coherence if it is composed of 3480 "naked and whole" electron units + 1 single electron or positron. We propose to extend this coherence for six types of particles from different families, including pions, protons, and neutrons.
Category: Quantum Physics
[1] viXra:2508.0001 [pdf] submitted on 2025-08-01 20:41:09
Authors: Satoshi Hanamura
Comments: 19 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)
This paper proposes a conceptual inversion of the conventional hierarchy in quantum mechanics: rather than spin generating Berry phase, we demonstrate that Berry curvature, arising from internal thermodynamic and geometric processes, serves as the generative mechanism for spin-like degrees of freedom in elementary particles. Using the 0-Sphere model, we describe a free electron as a thermodynamically closed system where energy oscillates between two internal kernels without reference to external fields, establishing an intrinsic adiabatic process that traces closed paths in internal parameter space. This cyclic energy transfer induces a Berry geometric phase, characterized by nontrivial holonomy in the internal configuration space, from which spin emerges as a macroscopic manifestation of microscopic geometric dynamics. The framework provides an alternative interpretation of quantum anomalies, particularly the anomalous magnetic moment, as coordinate-dependent manifestations of the same internal Berry phase processes. Through analogy with Foucault pendulum behavior across terrestrial latitudes, we demonstrate that observers comoving with the internal photon sphere measure the fundamental gyromagnetic ratio g = 2, while external laboratory observers detect additional geometric corrections arising from coordinate system transformations. By reinterpreting Zitterbewegung as the geometric trace of internal thermal motion and extending our previous reversal of Noether's theorem, we demonstrate that conserved thermal flows can generate the quantum symmetries we observe as fundamental particle properties. This framework not only redefines the ontological status of spin but also establishes a geometric foundation for understanding quantum anomalies and provides concrete pathways toward background-independent theories that potentially unify quantum mechanics with general relativity through shared geometric principles.
Category: Quantum Physics
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