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Sean D. Van Mil

1 paper in the library · 4 citations

Papers

Integrated phenomenology and brain connectivity demonstrate changes in nonlinear processing in jhana advanced meditation

bioRxiv (Cold Spring Harbor Laboratory) Ruby M. Potash, Sean D. Van Mil, Mar Estarellas et al. 4 citations preprint

During a deep meditative state called jhana, the brain's non-oscillatory, nonlinear neural activity—rather than oscillatory synchrony—best distinguishes the state from ordinary waking consciousness. In a single highly experienced meditator (over 20,000 hours of practice) studied across 29 sessions, EEG recordings showed that combining subjective ratings of attention with a nonlinear connectivity metric improved the ability to decode the meditative state compared to using neural measures alone. Deeper jhana states were marked by a balance between feedback and feedforward neural processes, indicating an equalization of internally and externally directed information processing. These findings suggest that refined conscious states involve distinct large-scale neural dynamics not captured by traditional oscillatory measures.