I'm exploring whether molecular-scale thermal fluctuations, especially in transmembrane proteins and ion channels, can trigger or disrupt coherence across neural oscillatory hierarchies. In my recent work, I model this using the TWIST mechanism in ODTBT, where recursive coherence saturation leads to state reorganization (e.g., attention ↔ dissociation).

I'm particularly interested in any empirical or computational studies that:

• Link protein structure or motility to cortical EEG entropy,
• Model thermal or spin-related coherence at the quantum-biological interface,
• Connect entropy buildup to neural phase transitions in altered states.

Any leads, data, or theoretical models welcome, especially those bridging biophysics, systems neuroscience, and consciousness science.