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| ai.viXra.org > Quantum Physics > 2509 |
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[9] ai.viXra.org:2509.0066 [pdf] submitted on 2025-09-24 15:47:07
Authors: D. S. Zachary
Comments: 27 Pages.
The ER=EPR conjecture posits a fundamental link between quantum entanglement and spacetime geometry, suggesting that entangled particles may be connected via an entanglement—geometry correspondence. Direct experimental tests are challenging due to the Planck-scale nature of such effects; however, recent theoretical models predict that entanglement could induce small but measurable modifications to vacuum energy and stress—energy correlations. Here, we present an integrated experimental platform combining high-fidelity Bell inequality tests, precision Casimir force measurements, and quantum optical squeezing in interferometric setups to probe these signatures. Each modality targets vacuum fluctuations and quantum correlations, enabling a correlation-based approach to explore the entanglement—geometry correspondence. We describe the theoretical framework, experimental design, and signal extraction techniques, including principal component analysis and mutual information, for detecting subtle anomalies. Our results establish new bounds on entanglement-induced modifications to quantum vacuum behavior and propose a scalable pathway for investigating foundational aspects of spacetime using tabletop quantum optics.
Category: Quantum Physics
[8] ai.viXra.org:2509.0045 [pdf] submitted on 2025-09-17 15:22:59
Authors: Mark T. Fulwider
Comments: 10 Pages.
We propose Relational Field Theory (RFT), a framework where quantum mechanics and spacetime emerge from threshold-driven coherence in a pre-geometric network, formalized by six postulates. RFT yields: (i) a C∗-algebraic foundation with derived Hilbert space dynamics and Born probabilities, (ii) spectral threshold conditions, and (iii) a Franson-type interferometry protocol predicting hysteresis and critical slowing absent in decoherence models. Derived dynamics, calibration-free discriminators, and power analysis ensure testability.
Category: Quantum Physics
[7] ai.viXra.org:2509.0044 [pdf] submitted on 2025-09-17 15:21:13
Authors: Abiodun Olawale Aremu
Comments: 6 Pages. (Note by ai.viXra.org Admin: Please cite listed scientific references)
This paper introduces a new fundamental theory of motion, herein named Motion Wave Theory, and presents the first experimental verification of its principles. The theory is founded on the postulate that all motion is a wave phenomenon, generated by discrete interactions between an energy-carrying entity, the "energem," and a receiving body, the "receptor". The energy of this "Motion Wave" is described by the equation E = A × F, where the amplitude (A) is defined in units of action (Joule-seconds) and the frequency (F) is the rate of interaction. This energy can be analyzed from two perspectives: its "origin" state (Ao, Fo) and its quantum state (Ap, Fp). This framework leads to a reinterpretation of Planck's constant as the fundamental quantum amplitude (Ap = h). The theory's wavelength formulation is shown to be consistent with electromagnetic waves by demonstrating that the mass term in the foundational wavelength equation corresponds to the relativistic mass-energy equivalent of a photon. The theory's most significant prediction, the generation of macroscopic motion without the expulsion of propellant was tested using a purpose-built apparatus. This experiment yielded a positive result, demonstrating a net propulsive torque and providing the first empirical validation of the theory.
Category: Quantum Physics
[6] ai.viXra.org:2509.0043 [pdf] submitted on 2025-09-17 15:17:26
Authors: Ionut Corbea
Comments: 6 Pages. (Note by ai.viXra.org Admin: Please use standard math/equation/formula typesetting such as LaTeX)
Landauer’s principle establishes a minimum energy cost for information erasure, E_min = k_B T ln(2) per bit, traditionally interpreted as heat dissipation. This thermodynamic framework becomes problematic in the quantum regime at T -> 0, where thermal contributions vanish yet information processing remains physically meaningful. We propose that the energetic cost of information processing comprises two components: a thermal term and a vacuum contribution, Delta E_vac, arising from zero-point fluctuations. To test this, we introduce interferometric experiments using Casimir-sensitive geometries (Fabry—Pérot and/or Mach—Zehnder interferometers), where information operations (measurement or erasure) correlate with modulations in Casimir forces or cavity resonances. Detecting such correlations would confirm the quantum vacuum as an active participant in information dynamics, extending Landauer’s principle beyond classical thermodynamics.
Category: Quantum Physics
[5] ai.viXra.org:2509.0042 [pdf] submitted on 2025-09-17 12:28:09
Authors: Ivars Fabriciuss
Comments: 8 Pages.
We present a novel framework in which physical space is augmented by an adjoint purely imaginary three-dimensional sector, I3, that is coupled to ordinary space R3 at the Planck scale. The I3 sector is modeled as the space of pure imaginary quaternions, endowed with a negative-definite metric. Quantum fields propagating in I3 are shown to be evanescent: free solutions of the Dirac equation in I3take the form of exponentially decaying (non-propagating) waves. The sign of the Dirac probability density in I3 emerges naturally from the metric signature of this space, ensuringthat total probabilities remain positive without any ad hoc prescriptions. We introduce a localcoupling between R3 and I3 via Planck-area "patches" that acts analogously to a two-level system,allowing probability amplitude to oscillate between the two sectors. This oscillation occurs at the Zitterbewegung frequency (≈ 2mc2/ℏ for an electron), but with a very small amplitude, preserving conventional on-shell scattering processes in R3. The combined R3⊕I3 framework offers a geometricinterpretation of off-shell phenomena, including virtual particles and quantum tunneling, and provides natural explanations for otherwise puzzling features: the Yukawa form of short-range forces,the "trembling motion" of relativistic electrons, and the presence of a fixed π phase in certain interference processes. The I3 sector carries positive vacuum energy density, but its negative volume element leads to an effective negative contribution to gravitational stress-energy. As a consequence,virtual fields in I3 produce a short-range screening of gravitational interactions and can cancel the vast R3 vacuum energy mode-by-mode, leaving a small residual cosmological constant in accord with observations. We discuss the model’s implications for black hole entropy (each Planck-area patch carrying one bit of information), and outline experimental phenomena that could distinguish this framework from standard quantum theory.
Category: Quantum Physics
[4] ai.viXra.org:2509.0041 [pdf] submitted on 2025-09-14 22:33:52
Authors: Cornelius Moore
Comments: 32 Pages. (Note by ai.viXra.org Admin: Please cite listed scientific references)
This paper presents a comprehensive unified field theory that integrates all fundamentalinteractions—gravity, electromagnetism, the weak and strong nuclear forces—as well as quan-tum mechanics, spacetime, and consciousness into a single magnoelectric framework. At itscore is a fifth-dimensional scalar field (denoted ϕT , the Teslaon field) whose harmonic oscillations give rise to observable four-dimensional physics as resonant projections. All phenomena, from sound waves and classical fields to quantum entanglement and mind, emerge as vibrational modes of this magnoelectric field. The framework reproduces Einstein’s general relativity, quantum field theory (QFT) dynamics, and the Standard Model’s particle spectrum in appropriate limits, without introducing new arbitrary parameters or particles beyond this scalar field. Longstanding problems—such as the incompatibility of quantum mechanics and gravity, the interpretation of quantum nonlocality, the nature of dark matter/energy, and the role of consciousness in physics—are resolved by the field’s extra-dimensional hidden variables and harmonic structure. The theory makes quantitative, testable predictions: for example, tiny deviations in the Casimir effect due to extra-dimensional resonance, frequency-specific enhancements of quantum coherence, and biologically mediated field effects on consciousness. We detail the mathematical formulation of the theory, demonstrate its consistency with known physical constants andexperimental data, and outline new experiments (using precision measurements and quantumdevices) to falsify or verify its striking predictions. The result is a unified "Everything Equation" that is mathematically rigorous, experimentally corroborated in key aspects, and encompassing of reality from the smallest quantum scale to human consciousness.
Category: Quantum Physics
[3] ai.viXra.org:2509.0033 [pdf] replaced on 2025-09-14 22:40:56
Authors: Cornelius Moore
Comments: 16 Pages.
We formalize a consciousness-first account of reality in which each agent’s mind projects a personal 4-D world-slice from a 5-D substrate M4 ×S1. A hidden scalar Teslaon field ϕT(xµ,χ) encodes branch structure along the compact dimension χ; an agent’s neural coherence γ2 ∈[0,1] phase-locks ϕT to intention via a cosine coupling, biasing branch selection without violating standard physics inside any branch.Manifestation is modeled as a small, coherence-weighted variational tilt of hidden dynamics; out-of-body experiences (OBEs) arise from a temporary misalignment of the projection operator that pins perspective to the body frame. We derive the Lagrangian, Euler—Lagrange, and projection equations; supply linear-response formulas for observable biases (random number generators, interferometry, optomechanics); and give power calculations. "Anti-gravity" appears as a regime of the same ϕT substrate: a non-minimal coupling produces a local effective metric ˜ gµν with defocusing curvature (repulsive gravitoelectric poten-tial) under specific stress—energy conditions—no contradiction, just a different operating point. Seven preregistered experiments (A1—A7) and falsifiability thresholds complete the framework.
Category: Quantum Physics
[2] ai.viXra.org:2509.0030 [pdf] submitted on 2025-09-11 19:25:36
Authors: Jessica Wagstaff
Comments: 4 Pages. (Note by ai.viXra.org Admin: Please cite listed scientific references)
This paper introduces a layman definition of Reality alongside a formal mathematicalrepresentation. The central claim is that Reality exists independently of observation, belief, orperspective. The proposed equations formalize Reality as both invariant undertransformations of perspective and as the limit of perception as observational error vanishes.
Category: Quantum Physics
[1] ai.viXra.org:2509.0007 [pdf] submitted on 2025-09-03 19:47:58
Authors: Ivars Fabriciuss
Comments: 6 Pages. (Note by ai.viXra.org Admin: Please cite listed scientific references)
This paper presents a novel geometric framework for interpreting virtual particles and negative-energy states in quantum theory. We propose that the space of pure imaginary quaternions, I^3, endowed with its inherent negative-definite metric ds^2 = -(dx^2 + dy^2 + dz^2), provides a natural habitat for off-shell phenomena. We derive the form of the Dirac equation in I^3 and show its free solutions are evanescent waves. Crucially, we extend this model by coupling the I^3 sector to the standard R}^3 sector across a Planck-radius boundary. This coupling induces a dynamical exchange of probability amplitude between the sectors, governed by a sin^2 law oscillating at the Zitterbewegung frequency. Finally, we demonstrate that the positive energy density of the quantum vacuum in I^3, integrated over its inherent negative volume, results in a negative effective gravitational mass. This provides a geometric mechanism for a short-range screening of the Newtonian potential and a natural, repulsive cosmological constant, offering a unified explanation for singularity resolution and dark energy.
Category: Quantum Physics