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CMB Anisotropy as the Mathematical Refutation of the Big Bang Theory and the Validation of NMSI

Author:

Lazarev, Sergiu Vasili

Category:

Research Papers

Sub-Category:

Cosmology

Language:

English

Date Published:

November 2, 2025

File:

/Research Papers-Cosmology/Download/10359

Downloads:

100

Keywords:

Cosmic Microwave Background; CMB anisotropy; Big Bang Theory; New Subquantum Informational Mechanics; phase-locked oscillations; harmonic resonance; Kuramoto model; Stuart–Landau equations; cosmology; Fibonacci spectral analysis

Abstract:

This paper rigorously analyzes the Cosmic Microwave Background (CMB) anisotropy as a decisive empirical test capable of falsifying the Big Bang Theory (BBT) and validating the New Subquantum Informational Mechanics (NMSI) framework. While BBT assumes a stochastic origin for the CMB's anisotropic structure—attributed to early-universe quantum fluctuations—NMSI predicts that these patterns arise from deterministic, phase-locked subquantum oscillations that permeate the entire cosmos. We demonstrate that the statistical and harmonic structures present in the CMB, particularly low-ℓ mode coherence and large-angle anomalies, align more closely with NMSI’s mathematical predictions than with BBT's inflationary assumptions. Through the use of Kuramoto-like synchronization models and Stuart–Landau amplitude dynamics, we map subquantum harmonic resonances to spherical harmonic coefficients Y_{ℓm} of the CMB and propose specific observational tests, including targeted analysis of Planck data for Fibonacci-based spectral banding.

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