TITLE:
Reinterpreting the Chiral Anomaly through Subquantum Resonant Oscillations: An NMSI-Based Reformulation
AUTHORS:
Sergiu Vasili Lazarev
KEYWORDS:
Chiral Anomaly, Quantum Symmetry, Subquantum Physics, NMSI, Oscillatory Logic, Topological Invariants
JOURNAL NAME:
Journal of High Energy Physics, Gravitation and Cosmology,
Vol.11 No.3,
July
21,
2025
ABSTRACT: This paper presents a reinterpretation of the so-called chiral anomaly in quantum field theory, proposing that what has traditionally been viewed as a breakdown of symmetry is, in fact, a natural and predictable outcome of a deeper oscillatory logic present in the subquantum realm. Through the framework of the New Mechanics of Subquantum Information (NMSI), we demonstrate that the apparent anomaly arises from a misinterpretation of the phase dynamics of mass-energy resonance and the role of topological invariants in subquantum spacetime. We offer a revised formulation of gauge symmetry, taking into account the feedback mechanisms between logical oscillators and particle trajectories, and outline experimental predictions that could validate this model.