Classical Physics

2512 Submissions

[2] ai.viXra.org:2512.0069 [pdf] submitted on 2025-12-18 02:20:21

Fundamental Positive Bounds on Coherence: The Constructive Counterpart to Dissipative Thermodynamics

Authors: Brian Crofoot
Comments: 5 Pages. CC-BY 4.0

I derive fundamental positive bounds on coherence preservation, revealing the constructive counterpart to dissipative processes in classical thermodynamics. Building on Claude Shannon's classical information entropy [1], Jon von Neumann's quantum extension [2], Albert Einstein's quantized energy carriers [3], and Steven Hawking's cosmic information bounds [4] on information content in the observable universe, these bounds — termed the Coherence Quartet — establish a symmetric framework for information temperature. Niels Bohr's complementarity principle [5], arising from wave-particle duality in quantum experiments, is retrodictively supported by these bounds. The positive contributions enforce inherent limits on decoherence, ensuring information hygiene above absolute zero. Simple examples illustrate the unification of positive coherence maintenance with negative entropy production.
Category: Classical Physics

[1] ai.viXra.org:2512.0028 [pdf] submitted on 2025-12-07 01:34:53

Geometric Unification of the Fine Structure and Lamb Shift: A Deterministic Theory Based on the Continuity Field (δ, γ)

Authors: Faisal Saeed
Comments: 30 Pages.

Precision atomic spectroscopy has historically tested fundamental physics, yet current mod- els rely on a patchwork of theories—Dirac equation for Fine Structure and QED for the Lamb Shift—requiring empirical constants and probabilistic methods. We introduce Discrete Con- tinuity Theory of Super-Asymmetry (DCTSA), a unified framework in which all spectral corrections emerge deterministically from spacetime geometry and topology.The theory models the proton using two geometric parameters: the Wobble Ratio (δ) and the Relativistic Factor (γ), which are shown sufficient to derive the Fine-Structure Constant (α), the Proton g-Factor (gp), and all higher-order energy corrections of Hydrogen. Electrons are described as topological oscillations sustained by the underlying continuity field, producing the precise volume perturbations required for the Lamb Shift. This work demonstrates complete geometric closure of the Hydrogen spectrum, provid- ing non-empirical, closed-form expressions for fundamental constants and energy levels, while reducing reliance on probabilistic field interactions. The framework lays the foundation for extending deterministic derivations to hyperfine structures and anomalous magnetic moments in future work.
Category: Classical Physics