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The Dyson Series as a Probabilistic Patch: Reinterpreting Time-Dependent Quantum Evolution via Subquantum Informational Oscillations (NMSI)

Author:

Lazarev, Sergiu Vasili

Category:

Research Papers

Sub-Category:

Quantum Theory / Particle Physics

Language:

English

Date Published:

May 13, 2025

File:

/Research Papers-Quantum Theory / Particle Physics/Download/10185

Downloads:

203

Keywords:

Dyson Series, Quantum Mechanics, Time-Dependent Schrödinger Equation, Probabilistic Interpretation, Subquantum Physics, Informational Oscillations, Logical Resonance, NMSI Framework, Deterministic Quantum Evolution, Path Integral Critique, Phase-Cohe

Abstract:

This paper explores experimental directions for validating the foundational principles of the NMSI model (New Subquantum Informational Mechanics). NMSI asserts that all particles and fields are stabilized resonance states of subquantum informational oscillations—"infobits"—rather than fundamental entities. This framework requires entirely new detection strategies beyond the methods of standard particle physics. We propose five major directions of research, including: indirect detection of subquantum oscillations, redesigning double-slit and interference experiments, geospatial observation of atmospheric and magnetospheric oscillators (CLOs), neutrino-based synchronous diagnostics of planetary and biological nuclei, and technological replication of resonance centers using artificial fullerenic logical cores. These avenues could enable a transition from probabilistic quantum mechanics to a deterministic, logic-oscillatory physics. From this perspective, the Dyson series, although computationally useful, is merely a probabilistic patch—an approximation to describe an incomplete interaction. NMSI postulates that real evolution emerges from coherent logical interference between subquantum oscillators.

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