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Showing 7 of 7 papers
"Fractal Resonance Cognition: A Framework for Complex Systems Analysis"
"This paper introduces a new theoretical framework called Fractal Resonance Cognition (FRC) to analyze complex systems by proposing that they are governed by vortex-like attractor structures with fractal scaling and resonant dynamics."
"Fractal Resonance Collapse: Guided Wavefunction Collapse via Resonant Attractors"
"This paper proposes that quantum wavefunction collapse is a deterministic process guided by resonant attractor states, challenging the probabilistic nature of conventional quantum mechanics."
"Thermodynamic Consistency of the Fractal Resonance Collapse Mechanism"
"This paper argues that the deterministic FRC collapse mechanism is consistent with the Second Law of Thermodynamics by treating the measurement process as an open system where local entropy decrease is compensated by a larger entropy increase in the environment."
"Deriving Born Rule Statistics from FRC Equilibrium Dynamics"
"This paper derives the Born rule statistically from the deterministic FRC dynamics by introducing an equilibrium hypothesis for the distribution of initial microstates."
"Quantitative Predictions for Born Rule Deviations under Resonant Driving in FRC"
"This paper explores the prediction that the Born rule might not be exact under specific conditions and derives quantitative estimates for these deviations when a system is subjected to resonant driving."
"Phase Choice & Will: Toward a Physics of Decision"
"This paper explores the role of \"will\" as a function of phase-selection within the Fractal Resonance Cognition (FRC) framework, modeling free will as the capacity of a coherent μ6 structure to bias phase collapse within a resonant field."
"Structured Water as μ-Phase Memory"
"This paper proposes that structured water acts as a fundamental medium for storing and transmitting μ-phase information across biological and symbolic systems, serving as a physical substrate for consciousness and memory within the FRC framework."