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[3] ai.viXra.org:2510.0067 [pdf] submitted on 2025-10-27 20:45:10
Authors: A. G. Schubert
Comments: 3 Pages.
We reinterpret the reduced Planck constant (hbar) not as the lower limit of physical law, but as the threshold of distinguishable interaction. Below this threshold, sub-(hbar) actions contribute to a smooth, continuous, and physically meaningful statistical substrate—out of which spacetime and the invariant speed (c) emerge. At or above the threshold, interactions become measurable, giving rise to quantum discreteness. This conceptual reinterpretation bridges quantum field theory and relativity, providing a fresh philosophical framework for understanding the quantum-to-classical transition and the emergence of relativistic invariance.
Category: Quantum Physics
[2] ai.viXra.org:2510.0025 [pdf] replaced on 2025-12-06 22:54:42
Authors: Rami Habchi
Comments: 78 Pages.
This paper proposes a novel framework to derive all known laws of physics from a single foundational principle: the *Law of Consistency*, introduced in Section 2 and elaborated in Section 7. By applying this law to symmetric states and conditions—regardless of the method of execution—it becomes possible, through pure mathematical reasoning, to reconstruct both classical mechanics (as developed by Isaac Newton) and, more significantly, quantum mechanics. Quantum mechanics is reinterpreted in this paper under a new conceptual framework rooted in consistency, providing coherent explanations for key phenomena such as entanglement, decoherence, wave function collapse, interference, the Pauli exclusion principle, and others. The principle of consistency is also extended to the domain of special relativity and shown to underlie its transition into general relativity. Some well-known equations (e.g., *E = mc²*) are re-derived, not for novelty, but to emphasize their foundational basis in the proposed axioms of consistency (Axioms 1 and 2) and logical deduction. Constants of nature (e.g., Planck's constant, *G*, *k*, etc.) are not addressed in this work. It is argued that they may represent arbitrarily assigned values within the universe, preserved through space and time by definition and by the consistency law.
Category: Quantum Physics
[1] ai.viXra.org:2510.0001 [pdf] submitted on 2025-10-02 01:26:54
Authors: Satyamurthy Kundharapu
Comments: 17 Pages. (Note by ai.viXra.org Admin: Please cite listed scientific references)
The doubleu2011slit experiment famously shows brightu2011dark interference fringes even when individual photons or other quanta pass the slits one at a time. This paper explains the phenomenon entirely within standard quantumu2011mechanical coherence theory and openu2011quantumu2011system dynamics. We demonstrate that firstu2011order field coherence governs fringe formation; decoherence, phase noise, detector modeu2011matching, and the observer effect (understood as informationu2011induced decoherence) determine fringe visibility. A worked numerical example shows how visibility decreases with increasing phaseu2011noise variance. These wellu2011established mechanisms fully account for all observed effects — no hidden medium or change in photon speed is required.
Category: Quantum Physics