Current Research in Next Generation Materials Engineering
Polymerase Chain Reaction as a Model for Quantum Fluctuation of Fermion Spins in DNA-Based Computing Linked to Artificial Intelligence
Abstract
Chur Chin
Polymerase chain reaction (PCR) represents a cornerstone of molecular biology, enabling exponential amplification of specific DNA sequences. In this work, we propose a novel theoretical framework interpreting PCR as a quantum fluctuation of fermion spins—where the stochastic yet directed behavior of DNA polymerase can be seen as a spin- mediated quantum operation. By modeling the thermocycling of PCR as state transitions and primer-template interactions as fermionic couplings, we outline a system in which biological replication parallels quantum decoherence and entanglement processes. This model is integrated with DNA-based computing and artificial intelligence (AI), offering a biologically inspired algorithmic foundation for spin-based quantum computation in bioinformatic contexts.
