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Abstract
The problem of consciousness encompasses not only the hard problem of subjective experience but also the equally challenging problem of subjective continuity—the persistence of a unique, first-person perspective across time, despite neural plasticity, metabolic turnover, and functional interruptions like sleep or anesthesia. Contemporary neuroscience has successfully identified neural correlates of conscious states but lacks a physical principle to explain the continuity of the experiencing subject. We postulate a Consciousness Identity Factor (CIF), a conserved, non-energetic physical parameter that binds to the electromagnetic field topology of a brain. This model posits subjective identity as a fundamental invariant, conceptually analogous to a quantum number, which selects and unifies a specific stream of consciousness from underlying neural dynamics. The CIF framework logically resolves the paradoxes of brain duplication and revival, while generating four key, falsifiable predictions: (1) the existence of unique, long-term magnetic "identity fingerprints" detectable by magnetoencephalography (MEG); (2) discrete, all-or-nothing phase transitions in global electromagnetic field coherence at the boundaries of consciousness; (3) identity-specific binding in brain revival scenarios, contingent on the restoration of a specific electromagnetic topology; and (4) detectable mesoscopic quantum correlations in neural tissue that are modulated by conscious state. This work provides a rigorous, testable, and physically-grounded framework to unify physics, neuroscience, and the phenomenology of the self.
