The Lubachevsky–Stillinger algorithm is a method used to simulate the dynamics of hard spheres in a system, primarily to study the properties of fluids or solids with spherical particles. It is particularly useful for generating configurations of non-overlapping spheres efficiently, making it relevant in computational physics and material science. ### Key Features of the Lubachevsky–Stillinger Algorithm: 1. **Hard Sphere Model**: The algorithm focuses on systems where particles are modeled as hard spheres that do not overlap.
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