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Watch this 49-minute conference talk exploring how strong correlations between particles can emerge dynamically through shared stochastic environmental fluctuations, even without direct particle interactions. Discover how these correlations develop over time and drive systems into strongly correlated nonequilibrium stationary states with remarkable properties. Learn about an exactly solvable model featuring noninteracting Brownian particles in a harmonic trap with time-varying stiffness that switches between two values at constant rates. Examine experimental validation through optically trapped colloidal particle systems, where theoretical predictions align exceptionally well with observed results. Gain insights into this cutting-edge research presented during the thematic meeting on random walks applications and interactions at the Centre International de Rencontres Mathématiques in Marseille, France.
