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The Electrodynamics of Ketamine

The Electrodynamics of Ketamine

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This episode breaks down a truly radical theory of consciousness: The General Resonance Theory (GRT). Forget the traditional idea that consciousness comes from synapses firing—GRT proposes that it emerges from near-instantaneous, resonant electromagnetic field interactions within the brain, moving information up to 40,000 times faster than slow neuronal spikes. This electrical "field" is the true substrate of our unified sense of reality. We use this theory to answer the biggest question in psychedelic science: Why does ketamine cause dissociation? While classic psychedelics are seen as "field resonance enhancers" that create feelings of unity and global synchronization, ketamine does the precise opposite. We reveal the precise mechanism: ketamine preferentially removes the "brakes" (NMDA receptors on inhibitory GABA neurons). This results in fragmented hyperactivity. Local circuits go wild, but they lose the coherence needed for a unified sense of self, leading to the subjective experience of dissociation and the ultimate breakdown of integrated consciousness—the K-hole. Electrically, this shows up as a measurable decoupling between the frontal and parietal regions, the key areas for self and spatial awareness. Finally, we explore the provocative idea that ketamine's rapid antidepressant effect might be due to this temporary, total electromagnetic reset—a complete shaking of the "snow globe" that forces the brain's rigid, unhealthy field patterns to resettle into a more flexible configuration. This is mind-bending physics that reframes mental health treatment as an exercise in tuning the brain’s frequency. Reference: Hunt, T. (2025). Electrodynamics of the Psychedelic Experience. Preprints.org. https://doi.org/10.20944/preprints202509.1813.v1
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