quantum simulation of physical systems using cellular automata
Quantum simulation of physical systems using cellular automata refers to the use of cellular automaton models to simulate and study quantum phenomena and complex physical systems. Cellular automata are computational models composed of a grid of cells, where each cell follows a set of rules to transition between different states. By introducing quantum principles into these cellular automata models, researchers can explore and understand the behavior of quantum systems, such as quantum entanglement, superposition, and quantum phase transitions, potentially leading to new insights in quantum physics and complex system dynamics.
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