Explorations in Astronomy & Astrophysics

The Dynamics of Quantum Harmonic Resonance: Axion Photonic & Aspecton Leptonic Metaparticle Emissions as Caused by a Singularity Spacetime Field Hyperspatial Subspace Gravity Compression & Non-Linear String Resonance Alignment Processes

Abstract

Alan Peter Garfoot

This research paper signifies the development of a unified theoretical framework for the formation of black hole nonthermal radiation of multiple kinds, in this paper termed as the axion photon-hadronic metaparticle and the aspection lepton-hadronic metaparticle; two distinct quantum metaparticles created under the astrophysical conditions of extreme spacetime compression within the radius of black hole singularity event horizons. Through hereby drawing on the quantum
mechanical principles of harmonic resonance dynamics, quantum tunnelling phenomena, and subspace ether theory. Axion metaparticles are described as a definitive coherent wave-packet superstring vibration of essence synthesis duality, formed by hadron-photon entrainment unification in areas of high spacetime compression. The waveform vibrations of the aspection metaparticle emerges from lepton-hadron spacetime compression whose synthesised duality of fundamental essences are marked by fluctuating electric charge polarity creating a causation of non-uniform oscillatory propagation trajectory.
Supported by current observations from Fermi-LAT and LIGO, alongside high-fidelity quantum field models, this theory aligns with the hyperspatial unified field frameworks grounded in eleven-dimensional grand-unified subspace field theory.

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