Spectral evidence from global geomagnetic calibration for stellar-system resonances constraining both quantum physics and geophysics
Abstract
In 1984, Clarke expanded the domain of observed quantum phenomena from the microscopic regimes of atoms and electrons (101-103 particles) to macroscopic superconducting circuits exhibiting quantum coherence (109-1012). I show the coherent quantum behavior persists at scales far beyond atoms and circuits: in Earth's (1051) resonant geophysical cycles, manifesting astro-macroscopic time-crystalline behavior. Thus, based on arguably the most accurate and precise spectral analysis of the most accurate global geomagnetism calibration (CKGPTS95), macroscopic and microscopic phenomena are interconnected through gravitational resonance networks across the cosmos, annulling conventional views of quantum invariance. The analyses unveiled a planet-dominating 9.35-My fundamental cycle arising from Earth's orbital and stellar gravitational influences, which resonantly governs long-term geomagnetic reversals, planetary growth, stratigraphic anomalies that mimic periodic mass extinctions, and the Great Unconformity. The resonances exhibit non-geophysical features of quantum coherence classically confined to microscopic systems, such as time crystals: discrete time-translation symmetry, fractional harmonic locking, and many-body entrainment. Given the ubiquity of the tidal phenomenon, a resonance-based framework exists in which large-scale celestial dynamics calibrate quantum analogously to how extragalactic dynamics calibrate stellar - thereby constraining particle masses, coupling constants, and universal parameters. This data-driven proof completes my 2006 theoretical derivation of G (and thus gravity) from c at both quantum and everyday scales, and confirms the Hyperresonance Unifying Theory, which unified those domains using only high-school algebra arXiv:0801.0876.
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