cellular automata in quantum field theory
Cellular automata in quantum field theory refer to computational models that simulate the behavior of particles and fields within the framework of quantum mechanics. These models divide space-time into a grid of cells, with each cell representing a discrete unit of space-time. The evolution of the fields and particles is determined by the rules of quantum mechanics, which involve superposition and entanglement. Through the cellular automata approach, physicists can explore the dynamics and properties of quantum field theories, aiding in the understanding of fundamental particles and their interactions.
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