Exploring the interaction between informational fields and molecular structures

Building on the theoretical foundations of phantom DNA and quantum holography, this project investigates how matter and information interact at the level of chemical and biophysical processes. Its aim is to detect the effects of information-modulated light and energy fields on both organic and inorganic molecules — revealing how these systems respond to resonant, coherent photonic environments.

At the core of the research lies a fundamental question: can phantom compounds exist — entities that exert catalytic or structural influence not as physical matter, but as electromagnetic imprints? If confirmed, such phenomena could open entirely new directions in quantum chemistry, molecular self-organization, and energy–information-based material design.

The project seeks to develop a quantum-holographic chemistry platform capable of using light and field information to guide the formation of nanoscale structures and material patterns. This line of research lays the foundation for future resonant nanomanufacturing and quantum-informational material engineering, where molecules do not merely react — they remember the energetic patterns that shaped them.