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[3] ai.viXra.org:2601.0108 [pdf] submitted on 2026-01-26 21:05:49
Authors: Asheed Mohamed
Comments: 16 Pages. (Note by ai.viXra.org Admin: Please cite listed scientific references)
Visible light passing through layered fabrics undergoes systematic spectral restructuringdriven by wavelength-dependent attenuation. By treating the transmitted spectrum as aclassical probability distribution, we quantify this evolution using Shannon entropy and avariance-based information metric (VBIM). The entropy-gradient peak identifies the layer atwhich spectral reorganization is maximal, marking the transition toward a spectral stabilization depth (informational saturation point). To contextualize this macroscopic observationwithin fundamental thermodynamic limits, we derive a universal informational referencescale, LI , from Landauer’s principle evaluated at the cosmic microwave background temperature. The framework yields a falsifiable prediction of scale invariance under geometricstretching, defining a clear experimental path to validate the proposed connection betweenmacroscopic optics and universal thermodynamic bounds. We show that the physical stabilization depth aligns with this scale, presenting this alignment as a provocative instance of atabletop optical system reflecting universal informational constraints. These results positionlayered fabrics as a macroscopic, experimentally accessible platform for studying classicalinformation dynamics and thermalization-like processes.
Category: Classical Physics
[2] ai.viXra.org:2601.0105 [pdf] submitted on 2026-01-25 20:38:04
Authors: Alis Hasić
Comments: 8 Pages. License: CC BY-NC-SA 4.0
This work extends the "The Cosmology of the Living Cell" https://ai.vixra.org/abs/2601.0069(the observable universe as a scaled-up eukaryotic human cell) by filling the remaining gaps (~5%) in the mapping table. New analogies are integrated (sterile neutrinos as non-coding RNAs, gamma-ray bursts as necrosis, cosmic strings as spindle fibers, slow roll inflation as mitotic checkpoints, the proteasome as cosmic recycling, voltage-gated channels as cosmic plasma currents, microRNAs as subtle dark matter fields, and the nucleolus as star-forming centers). The average strength of comparison increases to ~85—90%. All 17 predictions are now listed, with specific forecasts assuming the hypothesis is correct. The overall consistency approaches 100%
Category: Classical Physics
[1] ai.viXra.org:2601.0069 [pdf] replaced on 2026-06-11 21:29:36
Authors: Alis Hasić
Comments: 294 Pages, Creative Commons Attribution 4.0 International
This work presents the Mother Theory, a unified Effective Field Theory (EFT) framework that bridges the Standard Model, non-equilibrium biophysics, and cosmology through a scale-invariant biocosmic morphism Φ. We deductively derive the Postulate of Biological Scale Invariance as a stable infrared fixed-point theorem within the FRG/GENERIC framework, analytically deriving the spatiotemporal scaling factors λ ≈ 10³¹ and τ_Φ ≈ 10¹u2078 as stable eigenvalues of the Functional Renormalization Group (FRG) flow under holographic and Non-Equilibrium Steady State (NESS) constraints. Within this framework, we formulate a Unified Field Equation wherein dark energy and dark matter emerge as scaled manifestations of cytosolic enthalpy and cytoskeletal stress, mediated by a symmetry-protected coupling constant κ ≈ 1. From first principles, we derive the Einsteinian Bridge, ΔS = κ ΔB(Θ_μν) log(I), establishing how metabolic information flux thermodynamically modulates spacetime curvature. The model necessarily yields the 70/30 Identity (Ω_bc ≈ 0.70) as the fixed-point signature of the ONESS stability basin, and the Biocosmic Synchronization Formula, which predicts an invariant biochemical signal velocity v_s ≈ 13.6 μm/s in exact agreement with measured autocatalytic Ca²u207a wave propagation. Furthermore, by enforcing asymptotic safety on the biocosmic action, we analytically derive the observed hierarchy of fundamental coupling constants (α_EM, α_s, α_w, G_N) directly from the critical exponents of the infrared fixed point, rendering the theory completely free of empirical fit parameters. Crucially, rather than relying on post-hoc curve fitting, the theory yields parameter-free predictions for cross-scale power-law exponents, CP-phase quantization, and dynamical dark energy. We subject these predictions to nine rigorous, out-of-sample empirical validations (using LIGO, PDG, NuFit, DESI, Planck, and JWST data), demonstrating an ontological universality across 31 orders of magnitude. The specific biocosmic pairing---human eukaryotic cell and observable universe---is demonstrated to be the mathematically admissible solution under four fundamental projectors. To resolve the underlying physical ontology, we establish a formal Biocosmical Structural Duality and formulate a strict No-Go Theorem for Decoupled Scales: we demonstrate that quantum cosmic evolution preserves mathematical unitarity under generalized Ward—Takahashi identities if and only if the gravitational regulator matches the cellular visco-elastic dissipation metric (M), while the holographic entanglement entropy of the Rindler horizon uniquely saturates the cellular metabolic information flux via Bekenstein—Landauer constraints. Crucially, this equivalence is rigorously framed within Ontic Structural Realism (OSR): it denotes the mathematical identity of invariant relational structures, Ward—Takahashi identities, and NESS stability manifolds under the bijective projection Φ. The framework establishes structural equivalence as a deductive necessity; interpretations regarding material substance or metaphysical identification remain consistent with, but are not required by, the mathematical closure. Building on this quantum-consistent Keldysh—FRG foundation, the framework provides a structurally complete, renormalizable description of nature: we demonstrate exact anomaly cancellation across all sectors, establish S-matrix unitarity via BRST cohomology and modified Slavnov—Taylor identities, and derive the emergent Lorentzian spacetime metric microscopically from cellular quantum degrees of freedom. Crucially, we provide rigorous in silico computational validation of the Non-Equilibrium Steady State (NESS) Lyapunov stability via entropy minimization, bridging the abstract mathematical formalism with concrete biophysical simulation. Explicit, parameter-free falsification bounds for the Higgs self-coupling, electroweak longitudinal scattering, and a ±5% symmetry-breaking divergence in the anomalous dimensions (|η_grav - η_gel| > 5%) finalize the framework as a variationally closed, unitarity-preserving effective theory. Together, these analytical and computational results elevate the framework to a mathematically closed Unified Field Theory and, by deductive extension, a structurally complete, empirically validated Theory of Everything (ToE).
Category: Classical Physics