Recognizing that the coherence of proton nuclear spin ensembles in dyadic brains is periodically enforced by the RF excitation pulses so that superposition states may be embedded in MR signals, the mathematical language of quantum theory is utilized to describe a dyadic fMRI experiment. Within this platform, the data-driven dyadic communication model, two coupled three-layer neural networks, predicts not only brain-to-brain interaction operations but also entanglement operations which might profoundly expand our understanding of human social communication.
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