cellular automata in solid-state physics
Cellular automata in solid-state physics refer to computational models that simulate the behavior and dynamics of atoms or particles in a solid material by dividing it into a grid of cells. Each cell evolves based on a set of predefined rules determined by its neighboring cells, allowing the simulation to mimic various physical phenomena such as phase transitions, thermal conductivity, magnetism, and electrical properties.
Requires login.
Related Concepts (1)
Similar Concepts
- cellular automata
- cellular automata as models in physics
- cellular automata in biological physics
- cellular automata in cellular biology
- cellular automata in chemistry
- cellular automata in computational physics
- cellular automata in computer science
- cellular automata in condensed matter physics
- cellular automata in mathematics
- cellular automata in quantum field theory
- cellular automata in quantum mechanics
- cellular automata in simulating physical systems
- cellular automata in statistical physics
- cellular automata in theoretical computer science
- cellular automaton in physics