Introduces undergraduate students to chaotic dynamical systems. Topics include smooth and discrete dynamical systems, bifurcation theory, chaotic attractors, fractals, Lyapunov exponents, ...

Nalini Anantharaman is a modern mathematics and physics titan, renowned for her unique ability to find order within the heart of randomness. As a leading French mathematician, she has become the world ...

Nalini Anantharaman, a brilliant mathematician, bridges geometry, analysis, and physics with her groundbreaking work on dynamical systems and quantum chaos. Her research, which explores unpredictable ...

Preserving quantum information is key to developing useful quantum computing systems. But interacting quantum systems are chaotic and follow laws of thermodynamics, eventually leading to information ...

Researchers at the University of Tokyo have identified a precise sweet spot where quantum reservoir computing, a machine learning approach that treats quantum systems as computational engines, reaches ...

Example-oriented survey of nonlinear dynamical systems, including chaos. Combines numerical exploration of differential equations describing physical problems with analytic methods and geometric ...

Cellular automata are discrete, lattice-based models in which simple local interactions give rise to intricate global behaviour. As a cornerstone of dynamical systems theory, these models have been ...