Document Type
Conference Proceeding
Publication Date
Spring 4-13-2021
Abstract
The DNA molecule can be modeled as a quantum logic processor, and this model has been supported by pilot research that experimentally demonstrated non-local communication between cells in separated cell cultures. This modeling and pilot research have important implications for information sciences, providing a potential architecture for quantum computing that operates at room temperature and is scalable to millions of qubits, and including the potential for an entanglement communication system based upon the quantum DNA architecture. Such a system could be used to provide non-local quantum key distribution that could not be blocked by any shielding or water depth, would be simultaneous over any distance, and could not be electromagnetically interfered with or eavesdropped upon. The quantum DNA model also has implications for artificial neural networks and can provide architecture for a system of quantum random number generation.
Recommended Citation
Mihelic, F. Matthew, "Implications of the quantum DNA model for information sciences" (2021). Faculty Publications. 18.
https://dc.uthsc.edu/gsmk_facpubs/18
Included in
Medical Biophysics Commons, Medical Cell Biology Commons, Medical Molecular Biology Commons, Other Computer Sciences Commons, Other Medical Sciences Commons, Quantum Physics Commons, Theory and Algorithms Commons