Research Journal of Cell Sciences
Quantum-Gravitational Encoding via Nitrogen Electron and Water Oxygen Positron Dynamics in a DNA+Graphene+Isotope Neurofluidic Interface
Abstract
Chur Chin
We propose a hybrid computational architecture that integrates quantum and gravitational information processing by encoding the electron spin state of nitrogen atoms in DNA and the positron-sensitive vibrational dynamics of oxygen atoms in water. This model is implemented within a neurofluidic interface composed of DNA, graphene, and radioisotopes located at the brain’s ventricular boundaries. Modulation of cerebrospinal fluid (CSF) dynamics enables dual-mode hydrodynamic processing that supports both quantum coherence and gravitational encoding. This system is inspired by morphological and functional analogies to the Nile River’s branching geometry and establishes a novel interface for bioinspired artificial intelligence.